UTTARAKHAND WATER SUPPLY AND SANITATION PROGRAM FOR
PERI-URBAN AREAS
Environmental and Social Systems Assessment
Draft Date: June 27, 2017
Contents
Abbreviations and Acronyms ................................................................................................. 1
Executive Summary ................................................................................................................. 5
Chapter 1: Introduction ........................................................................................................ 10
Key Program Results ............................................................................................................ 12
Proposed Program-for-Results Operation Context ............................................................. 13
Program Description ......................................................................................................... 13
Chapter 2: ESSA - Purpose, Scope, and Methodology ....................................................... 15
PforR Financing and Environmental and Social Assessment .............................................. 15
Objectives of the ESSA ......................................................................................................... 15
Scope of the ESSA ................................................................................................................ 16
Methodology for Environmental and Social Assessment ..................................................... 16
Review of Secondary Data ............................................................................................... 17
Primary Data Collection ................................................................................................... 18
Data Collection Instruments ............................................................................................. 18
Sampling for the Field Visit ............................................................................................. 19
Environmental and Social Analysis ..................................................................................... 20
Chapter 3: Existing Environmental Social Management Systems .................................... 21
Regulatory Framework ........................................................................................................ 21
General Regulations ............................................................................................................. 21
National-level Regulatory Framework ............................................................................. 21
State-level Regulatory Framework ................................................................................... 22
Environmental Regulations .................................................................................................. 25
Social Regulations ................................................................................................................ 29
Important GOs and Notifications of the State .................................................................. 30
Government Programs and Schemes Relevant to WSS ................................................... 32
Chapter 4: Institutional Arrangements for the WSS Sector ............................................. 36
Institutional Framework to Manage Water Supply, Sewage, and Sanitation ...................... 37
Environment-specific Departments and Agencies ........................................................... 45
Social-specific Departments and Agencies ...................................................................... 46
Other Departments and Agencies ........................................................................................ 47
Chapter 5: System Assessment - Capacity and Performance ............................................ 50
Environment Assessment ...................................................................................................... 50
Environmental Safeguard Implementation by the UJN .................................................... 50
Environmental Safeguard Implementation by the UJS .................................................... 51
Actions toward Environmental Responsiveness in the Departments ............................... 52
Environmental Safeguard Implementation by SWAJAL ................................................. 52
Implementation Systems, Procedures, and Regulations ................................................... 52
Impact Assessment and Management Actions ................................................................. 60
Social Assessment ................................................................................................................. 63
Implementation of Legal and Regulatory Provisions ....................................................... 63
Performance of Institutional Structure and Roles in the State .......................................... 67
Effectiveness of Implementation of Programs and Schemes ........................................... 71
Potential Social Effects of the Program ............................................................................ 80
Chapter 6: Assessment against Core ESSA Principles ....................................................... 84
Core Principle 1 ................................................................................................................... 84
Applicability ..................................................................................................................... 84
Strengths ........................................................................................................................... 84
Gaps, Inconsistencies, and Risks ...................................................................................... 85
Opportunities .................................................................................................................... 85
Core Principle 2 ................................................................................................................... 86
Applicability ..................................................................................................................... 86
Strengths ........................................................................................................................... 86
Gaps, Inconsistencies, and Risks ...................................................................................... 87
Opportunities .................................................................................................................... 88
Core Principle 3 ................................................................................................................... 88
Applicability ..................................................................................................................... 88
Strengths ........................................................................................................................... 88
Gaps, Inconsistencies, and Risks ...................................................................................... 89
Opportunities .................................................................................................................... 89
Core Principle 4 ................................................................................................................... 90
Applicability ..................................................................................................................... 90
Strengths ........................................................................................................................... 90
Gaps, Inconsistencies, and Risks ...................................................................................... 91
Opportunities .................................................................................................................... 91
Core Principle 5 ................................................................................................................... 91
Applicability ..................................................................................................................... 91
Strengths ........................................................................................................................... 92
Gaps, Inconsistencies, and Risks ...................................................................................... 92
Opportunities .................................................................................................................... 93
Core Principle 6 ................................................................................................................... 93
Applicability ..................................................................................................................... 93
Strengths ........................................................................................................................... 94
Gaps, Inconsistencies, and Risks ...................................................................................... 94
Opportunities .................................................................................................................... 94
Program Activity Screening ................................................................................................. 95
Chapter 7: Recommendations and Program Action Plan.................................................. 97
Exclusion of High-risk Activities .......................................................................................... 97
Environmental Recommendations ........................................................................................ 97
Environmental Program Actions ...................................................................................... 99
Social Recommendations.................................................................................................... 100
Social Program Actions .................................................................................................. 103
Annexes ................................................................................................................................. 104
Annex 1: List of People Consulted and Places Visited ...................................................... 104
Annex 2: Checklist for the Social Assessment .................................................................... 107
Annex 3: Discussion on Environment Regulations ................ Error! Bookmark not defined.
Annex 4: Activities Permitted, Regulated, and Prohibited in Eco-Sensitive Zones, General
Guidelines........................................................................................................................... 110
Annex 5: Doon Valley Eco-sensitive Zone, Its Boundaries, and Allowed Activities .......... 112
Annex 6: Protected Areas of Uttarakhand ......................................................................... 116
Annex 7: Boundaries of the Ganga Basin According to the GRBMP ................................ 117
Annex 8: Urban Sprawl in Uttarakhand ............................................................................ 132
1
Abbreviations and Acronyms
ADB Asian Development Bank
AE Assistant Engineer
AES Acute Encephalitis Syndrome
AIP Annual Implementation Plan
AMRUT Atal Mission for Rejuvenation and Urban Transformation
ASHA Accredited Social Health Activist
BHEL Bharat Heavy Electricals Limited
BPL Below The Poverty Line
CBO Community-based Organization
CETP Common Effluent Treatment Plant
CFR Community Forest Right
CNG Compressed Natural Gas
CPCB Central Pollution Control Board
CSO Civil Society Organization
CSS Centrally Sponsored Scheme
CT Census Town
CWR Clear Water Reservoir
DDW Department of Drinking Water
DIA District Implementing Agency
DLI Disbursement-linked Indicator
DO Departmental Order
DPC District Planning Committee
DPMU District Program Management Unit
DPR Detailed Project Report
DRDO Defence Research and Development Organization
DWSC District Water and Sanitation Committee
DWSM District Water and Sanitation Mission
ECoP Environmental Code of Practices
EE Executive Engineer
EIA Environmental Impact Assessment
EMF Environmental Management Framework
EPA Environmental Protection Act
ESSA Environmental and Social Systems Assessment
FCA Forest Conservation Act
FGD Focus Group Discussion
FICCI Federation of Indian Chambers of Commerce and Industry
FRA Forest Rights Act
FTK Field Test Kit
2
GBPIHED G. B. Pant National Institute of Himalayan Environment and
Sustainable Development
GO Government Order
GoI Government of India
GoUK Government of Uttarakhand
GP Gram Panchayat
GRBMP Ganga River Basin Management Plan
GRM Grievance Redress Mechanism
HNBU Hemvati Nandan Bahuguna University
IDSP Integrated Disease Surveillance Programme
IEC Information, Education, and Communication
IHHL Individual Household Latrine
IIT Indian Institute of Technology
IMIS Integrated Management Information System
IPQA Implementation Phase Quadruple Agreement
ISRO Indian Space Research Organisation
IWMP Integrated Watershed Management Programme
JE Junior Engineer
JNNURM Jawaharlal Nehru National Urban Renewal Mission
KII Key Informant Interview
KMVN Kumaon Mandal Vikas Nigam
lpcd Liters per Capita per Day
LPG Liquefied Petroleum Gas
M&E Monitoring and Evaluation
MDWS Ministry of Drinking Water and Sanitation
MGNREGA Mahatma Gandhi National Rural Employment Guarantee Act
MIS Management Information System
MoEF Ministry of Environment and Forests
MoPR Ministry of Panchayati Raj
MoUD Ministry of Urban Development
MVS Multi-village Scheme
MVSLC Multi-village Scheme-level Committee
NGO Nongovernmental Organization
NGRBA National Ganga River Basin Authority
NHM National Health Mission
NLRSDA Nainital Lake Region Special Development Authority
NoC No Objection Certificate
NRDWP National Rural Drinking Water Programme
NRGBM National River Ganga Basin Management
NRuM National Rurban Mission
3
NRW Non-Revenue Water
NVBDC National Vector Borne Disease Control Programme
O&M Operation and Maintenance
ODF Open Defecation Free
OHS Occupational Health and Safety
OHT Overhead Tank
PA Protected Area
PAD Program Appraisal Document
PAP Program Action Plan
PDO Program Development Objective
PforR Program for Results
PMKSY Pradhan Mantri Krishi Sinchayee Yojana
PMU Program Management Unit
PPP Public-Private Partnership
PRI Panchayati Raj Institution
PTC Panchayat Training Center
PwD People with Disabilities
PWD Public Works Department
RLB Rural Local Body
RWH Rainwater Harvesting
RWSS Rural Water Supply and Sanitation
SADA Special Area Development Authority
SBM Swachh Bharat Mission
SBM-G Swachh Bharat Mission-Gramin
SC Scheduled Caste
SCP Special Component Plan
SDG Sustainable Development Goal
SDM Sub-divisional Magistrate
SIRD State Institute of Rural Development
SLB Service Level Benchmark
SLIP Service-level Improvement Plan
SLTI State-level Training Institute
SLWM Solid and Liquid Waste Management
SO Support Organization
SPCB State Pollution Control Board
SPECS Society of Pollution and Environmental Conservation Scientists
ST Scheduled Tribe
STI State Training Institute
STP Sewerage Treatment Plant
4
SVS Single-village Scheme
SWAp Sectorwide Approach
SWSM State Water and Sanitation Mission
TSP Tribal Sub-plan
UA Urban Agglomeration
UAPCC Uttarakhand Action Plan on Climate Change
UJN Uttarakhand Pey-Jal Nigam
UJS Uttarakhand Jal Sansthan
ULB Urban Local Body
URWSSP Uttarakhand Rural Water Supply and Sanitation Program
UUSDIP Uttarakhand Urban Sector Development Investment Program
UWSSC User Water Supply and Sanitation Committee
WQMSP Water Quality Monitoring and Surveillance Programme
WSS Water Supply and Sanitation
WSSO Water and Sanitation Support Organization
WTP Water Treatment Plant
ZP Zila Panchayat
5
Executive Summary
1. An Environmental and Social Systems Assessment (ESSA) was undertaken by the World
Bank to understand the potential environmental and social risks, benefits, impacts, and
opportunities of the likely investments to be made under the program. This ESSA examined the
borrowers’ program’s processes and systems for environmental and social safeguards for their
consistency with the core principles outlined in the World Bank’s Policy and Directive for
Program for Results (PforR) Financing.
2. The key findings of this assessment are based on a review of existing information and
field visits, discussion with relevant stakeholders, and consultations with representatives of the
line departments and user groups, and with community members.
Environmental Systems
3. The state government has a well-established system to manage environmental impacts.
Regulations to address concerns of source sustainability, drainage, waste management, labour
and worker safety and protected areas are in place and the state and national levels. Uttarakhand
Pey-Jal Nigam (UJN) and Uttarakhand Jal Sansthan (UJS) have demonstrated their ability to
address environmental issues by taking a number of innovative steps for reducing energy
consumption, and improving the sustainability of existing water supply systems.
4. Implementation of water supply and sanitation projects in Uttarakhand has, in the past
required the implementation departments to work with a number of environmental regulations
and take required permissions. Therefore, implementing agencies have had experience with and
are familiar with a number of existing environmental safeguards requirements. The state also
has well-defined environmental guidelines and related infrastructure, including a network of
water-testing laboratories to check for water quality and residual chlorine.
5. The overall impact of the program on the environment and on human health is likely to
be positive. However, some environmental risks could arise during implementation. On balance,
the overall environmental risks associated with the program are considered Moderate. Some of
the environmental risks under the program are indicated below.
Water quality. Presently, all program districts show the existence of diarrheal
diseases, and this may be related to water quality issues. The State Pollution Control
Board (SPCB) data indicate that a large number of surface water sources are affected
by fecal and industrial contaminants and are unfit to be used as drinking water
sources. This may affect the use of these sources for schemes under the program.
The availability of robust water quality data for groundwater sources is limited.
However, sewer systems are largely unavailable in peri-urban areas and residents
depend upon septic tanks and pit latrines for their sanitation needs. If the septic tanks
and pit latrines are not properly constructed, there could be some instances of fecal
contamination of groundwater. As water is chlorinated before distribution, several
water quality issues identified will be addressed under the program. However, the
6
operation of the system would depend on pump operators, who may have limited
capacities. This may affect the quality of water supply to customers.
Groundwater abstraction. Most peri-urban areas are dependent upon groundwater
sources. The program is likely to improve service levels from the current 55 liters
per capita per day (lpcd) to 135 lpcd. Therefore, the overall water abstraction is
likely to be negligible. In addition, the Central Ground Water Board data suggest
that none of the identified peri-urban areas have any dark zones, making it safe to
currently abstract groundwater. However, with rapid urbanization, development, and
climate change, it is likely that there will be some decline in the existing aquifers.
According to a 2016 study, in the last decade, the built-up area under the Municipal
Council of Uttarakhand has increased by about 50 percent. Thus, measures to
address source sustainability need to be developed. However, as catchment
management and urban development are beyond the UJN and UJS’s mandate, this
may be difficult to implement.
Site management. The District Implementing Agencies (DIAs) hire contractors to
construct the systems under the program. All construction contracts include clauses
for Occupational Health and Safety (OHS) and management of the construction site,
including for waste management, erosion control, and site safety. To ensure that
these clauses are followed, site supervision may need to be strengthened.
6. A few environmental challenges that may affect the program include the following: (a)
some selected areas adjoin the Uttarakhand Protected Areas (PAs) and eco-sensitive zones; some
activities may be restricted in these locations due to some animal movement, and additional work
permits may be required; (b) there are a number of regulations on waste management that will
need to be adhered to and may require a change in the current practices, for example, batteries
are currently disposed of in general auctions, which is against the regulations; (c) increased water
supply, particularly without well-developed wastewater management, sanitation, and drainage
systems, may lead to more waterlogging and, subsequently, a rise in the incidents of vector
diseases.
Social Systems
7. The state government has robust systems, progressive policies, legislations, and
comprehensive institutional mechanisms to address the social issues that may emerge from
current implementation processes and from potential program investments.
8. The program will likely have positive social impacts on the lives and livelihoods of large
vulnerable peri-urban and rural communities that still do not receive optimal levels and quality of
WSS services. It will also contribute to the achievement of Sustainable Development Goal
(SDG) 6 on ‘ensuring availability and sustainable management of water and sanitation for all’.
The program is expected to help reduce drudgery for women and girls of the affected
households, who otherwise are made responsible for organizing the drinking water supplies for
the family, and will have substantial positive impacts in terms of time-saving, reduced morbidity,
7
and reduced expenditure on health owing to improved water quality. Based on the present
assessment, the overall social risks associated with the program are considered Moderate.
9. As in other parts of India, many peri-urban areas of Uttarakhand show signs of low
social capital, inequitable benefit distribution, and high disparities in interhousehold social and
economic attainments. Uttarakhand’s existing policies related to differential tariffs and pricing
and the program’s focus on improving service levels, metering, and consumption-based water
pricing will help create a more equitable distribution of WSS services in peri-urban areas.
10. Progressive and transparent national- and state-level policies prioritize habitations with
low coverage and focus on household-level water security. The program complements these
policies and aims to strengthen inclusive and accessible WSS services delivery in selected areas.
11. There are strong precedents of positive decentralization experiences from the previous
World Bank-supported projects. These lessons and experiences, if incorporated well in the new
program ‘p’, will ensure that the systems for the upcoming program are inclusive and have a
substantive role for communities in supporting planning and implementation of WSS schemes
and offering equitable services. These World Bank-supported WSS projects in the state also
created a large pool of civil society organizations (CSOs)/support organizations (SOs) that can
further community initiatives, contribute to large-scale social mobilization in the peri-urban
areas, and support capacity building of various program stakeholders, including the community
for facilitating greater ownership and training user committees on their roles and responsibilities
under WSS schemes. There are however some gaps and challenges that the program will need to
address.
12. Institutional overlap and accountability. A large number of institutions with
overlapping mandates and unclear roles and responsibilities for construction and operation and
maintenance (O&M) of schemes are engaged in Uttarakhand’s WSS sector. This can affect
institutional accountability. There is also limited information sharing and coordination among
DIAs at the field level, which can affect construction, O&M, and augmentation of WSS schemes.
13. Systemic disincentives for community management of schemes. Some existing state
policies create systemic disincentives for community management of schemes. These are
specifically related to differential power tariffs, wherein community-managed schemes pay
power tariffs at commercial rates while DIA-managed schemes pay domestic rates for pumping-
based schemes. This can render smaller schemes and schemes with lesser connections (or low
revenue realization) financially unviable, forcing transfer of their management to DIAs. The state
is cognizant of this challenge and is exploring options to address it.
14. Role and capacity of Gram Panchayats (GPs). The role of GPs in the management and
maintenance of WSS schemes has been limited, even though the state has provided a central role
to GPs under the Uttarakhand Panchayat Act by constituting User Water Supply and Sanitation
Committees (UWSSCs) as statutory subcommittees of the GP. The World Bank-supported
Sectorwide Approach (SWAp) called for a stronger role for Panchayati Raj Institutions (PRIs) in
planning and implementation of schemes. However, capacities of many elected representatives in
user committees are weak and there is lack of clarity about their mandate and role in managing
8
schemes independently. As a result, the committees and GPs are often heavily reliant on the
DIAs for support.
15. Social mobilization. The state has clear protocols on the need for elaborate phases of
social mobilization and community capacity building. This is also clearly indicated in several
government orders (GOs) and departmental orders (DOs). However, there is still evidence of low
or limited social mobilization and consequently of limited ownership in some schemes. This may
result in weak linkages between the service provider and beneficiary/ users of such schemes
leading to weak ownership of the schemes. However, this scenario is not representative of the
entire state, which has several examples of successfully managed community schemes.
16. During previous World Bank-supported projects, consistent efforts were made to
mainstream social capacities among DIAs that traditionally had an engineering focus. This
involved several steps, including staff secondment and appointment of Community Development
Specialists for strengthening the software component of the scheme - information, education, and
communication (IEC); community mobilization; and capacity building on planning,
management, and maintenance. This was found to have a limited impact on the transfer of
capacities to the communities. In addition, there has been some resistance among the DIAs in
adopting community processes in WSS schemes as these were time consuming and human
resource intensive. This has led to variance in the levels of community participation in planning
and management, access, and inclusion in schemes.
17. Some of the risks associated with the program include (a) ineffective implementation of
mechanisms to ensure participatory and inclusive planning of schemes, leading to the exclusion
of vulnerable and marginalized communities; (b) risk of inequitable benefit distribution in some
peri-urban areas because of challenging topography, high population influx, high interhousehold
disparities in economic status, large demand-supply gap, competing demands of
commercial/domestic users, and low social capital within peri-urban communities; (c) issues of
affordability and access in shifting to private connections, especially for the economically
vulnerable communities and female-headed households that have traditionally depended on
public supplies (stand posts or hand pumps); (d) potential risk of rural-urban conflicts over the
use of resources such as sourcing of drinking water supply for urban areas from rural sites; and
(e) risk of social conflicts among the residents of peri-urban areas, especially between the old
native population and the new settlers due to instances of disproportionate consumption of
resources/services (WSS services).
18. Recommendations for managing social risks associated with the program include
providing (a) a central role for the local bodies and UWSSCs in the design and implementation
of schemes; (b) more clarity on roles and responsibilities of user committees; (c) integrated and
sustainable social capacities within DIAs and deploying staff with social and community
development skills in implementing agencies to ensure long-term sustainability; (d) better
coordination and information sharing among DIAs; (e) formalized institutional mechanisms for
resource use/sharing and coordination between the rural local bodies (RLBs) and urban local
bodies (ULBs) to mitigate potential social risk or conflict between rural and urban communities;
and (f) a ‘Common Grievance Redress System’ for the WSS sector.
9
Program Actions Plan
Key Program Action Timeline Responsible Party Completion Measurement
Environmental
Strenthening the OHS
system for construction
management
Through the life
of the program,
and starting
within 6 months
of effectiveness
UJN/UJS/private
sector
OHS equipment in place and used at
construction sites.
Workers use safety gear regularly and
properly.
Developing a water
supply system that
ensures water quality and
source sustainability
Through the life
of the program,
and starting
within 6 months
of effectiveness
UJS and, where
community is
involved, the
community
Capacity of UJS pump operators and
system managers strengthened to ensure
chlorination systems are in place and
working and an overall reduction in
NRW. Creation of guidance note in local
language to ensure chlorination and
monitor and manage the system to ensure
its proper management by implementing
authority, which should be available at
the pumping well for operator’s
reference.
Use of existing ECoPs and guidelines
for aquifer recharge and monitoring to
ensure groundwater levels are
maintained.
Social
Develop procedures for
social risk screening for
sites selection and for
assessing likely impacts
Year 1: First half
Year 1: Second
half
DDW, GoUK
SWSM
Develop indicators and procedures for
risk screening measurement and
verification.
Test and roll out implementation of the
screening framework.
Establish a
Comprehensive Grievance
Redress System for the
WSS sector
Year 1
Year 2
DDW, GoUK
SWSM
Decision on nature of GRM platform,
design of process flow, and
development of statewide GRM system
for the WSS sector
Rollout of GRM and periodic public
disclosure of analysis of grievances
handled and resolved
Create sustained social
capacities within the DIAs
and systems for
community monitoring
Year 1
Year 2
DDW, GoUK
UJN, UJS, SWAJAL
PMU
Identify social capacity required,
prepare Terms of Reference, and
initiate recruitment, select community
monitoring approach to be used, and
undertake preparatory trainings.
Full deployment of human resources
with social development skills.
Initiate use of community monitoring
systems in all schemes.
Note: DDW = Department of Drinking Water; ECoPs = Environmental Codes of Practices; GoUK = Government of
Uttarakhand; GRM = Grievance Redress Mechanism; NRW = Non-Revenue Water; PMU = Program Management
Unit; and SWSM = State Water and Sanitation Mission.
10
Chapter 1: Introduction1
This section provides an introduction to the water supply and sanitation related achievement and
challenges for the state of Uttarakhand and then spells out the objectives and scope of the
proposed program—its focus and the major strategies that will be deployed for achieving them.
India’s urban population has grown by 32 percent in the past one decade. Although the
proportion of urban population concentrated in larger cities continues to remain high, there is
strong evidence of an increase in the number of urban growth nodes. As the pace of urbanization
is increasing, several rural areas now have urban characteristics and there is also an increasing
trend toward co-option of predominantly rural areas into the limits of municipal bodies. These
areas form the peri-urban interface, the critical region between the urban and rural areas in India.
These transitional areas present unique governance, regulatory, infrastructure, service delivery,
and environmental challenges for policy makers. The challenges get compounded because of the
fragmentation of institutional responsibilities, especially in peri-urban areas close to large and
growing cities. Administrative uncertainty resulting from weak links and unclear municipal
jurisdiction for infrastructure service delivery along with low priority assigned to these areas by
rural departments further exacerbates service delivery issues. This has significant policy
implications for the water supply and sanitation (WSS) sector.
The Government of India (GoI) has made significant investments in the WSS sector across urban
and rural areas and has shown continuous commitment through bringing in sector reforms,
enhanced financial allocations, policy directions, and actions for improvising monitoring and
reporting mechanisms in the sector. The GoI’s National Rural Drinking Water Programme
(NRDWP) and Swachh Bharat Mission-Gramin (SBM-G) are the flagship programs focusing on
water and sanitation in rural areas. For urban areas, Swachh Bharat Mission (SBM) (Urban),
SMART Cities, Atal Mission for Rejuvenation and Urban Transformation (AMRUT), and the
erstwhile Jawaharlal Nehru National Urban Renewal Mission (JNNURM) are the major schemes
providing funding support to the WSS sector. These programs/schemes also lay stress on
institutional reforms and capacity building of key stakeholders besides providing support for
infrastructure coverage. Guidelines of the Ministry of Urban Development (MoUD), GoI, also
provide guidance for planning of peri-urban areas and suggest provision of WSS services at par
with urban standards.
Despite these efforts, many challenges remain. Issues of coverage and service delivery are
persistent with multifold challenges, particularly for peri-urban areas. The state of Uttarakhand
faces, in some sense, a larger challenge as compared to the rest of India because of its
geographical terrain. Over 88 percent of the state is hilly, and 65 percent area is under forests.
Rapid urbanization in the state has led to the expansion of urban centers and the emergence of
peri-urban regions around the existing urban centers because of expanding economic activities
1 Source: Draft Project Concept Note on Uttarakhand Rural Water Supply and Sanitation Program for Peri-Urban
Areas-URWSSPPA of March 23, 2016, and Aide Memoire of February 27, 2017.
11
and job opportunities in cities and towns. One of the fast emerging challenges in the state is to
improve WSS service delivery in these areas.
The state has seen a multifold increase in the number of Census Towns (CTs) from 12 in 2001 to
41 in 2011, a strong indicator of peri-urban growth. Out of 41 CTs in the state, 7 have a
population of 97,588 (2011) and are growing at a decadal growth rate of 90 percent or more. The
peri-urban areas have largely been neglected in the planning process, and most consumers are
adopting ‘self-provisioning’ coping mechanisms. As a result, service delivery issues in these
towns are becoming increasingly prominent.
With regard to drinking water supplies, out of the 81 urban local bodies (ULBs) in the state, 21
have a production level of over 135 lpcd and the rest are below 135 lpcd. At least 34 ULBs have
a production level of less than 70 lpcd. However, the actual consumer end supply may be even
less because of leakages and losses in the system. Although Census 2011 data show that about 68
percent of all households in Uttarakhand (78 percent urban and 63 percent rural) have ‘access’ to
tap water, efficient and equitable services are lacking, with the duration of water supply varying
between 1 and 2 hours of daily supply or 3–4 hours of supply on alternate days. Non-Revenue
Water (NRW) is estimated at 40–50 percent for most towns. Only 15 percent of the rural
habitations are fully covered, and the remaining 85 percent are partially covered if the current
norm of 55 lpcd is applied to the rural population. The issue of WSS service delivery is further
exacerbated in peri-urban areas, which are yet to be integrated in the planning process.
In 2015–16, the state achieved full coverage in 21,743 out of its 39,309 habitations and partial
coverage in the remaining 17,547 habitations (of which 6,336 habitations have coverage of less
than 50 percent).2 The state more than achieved its target for 2015–16 by covering an additional
478 habitations in the financial year. According to Ministry of Drinking Water and Sanitation
(MDWS) Integrated Management Information System (IMIS) data, the state has covered 54
percent of Scheduled Caste (SC) population, 66 percent of Scheduled Tribe (ST) population, and
55 percent of the total population of the state with more than 40 lpcd water. However, only 9.83
percent of the total rural households (1.5 lakh families) have a piped water supply connection till
date.3 All the 3 implementing agencies—Uttarakhand Pey-Jal Nigam (UJN), Uttarakhand Jal
Sansthan (UJS), and SWAJAL implement the WSS schemes funded through the NRDWP.
The augmentation and upgradation of distribution infrastructure has not kept pace with the
rapidly expanding settlements, and most customers are dependent on private borewell water
supply. In most plains of the state such as District Haridwar, water is supplied through both
piped water schemes and hand pumps. In districts like Udham Singh Nagar, the coverage is
mainly through hand pumps. Equitable access to water supply services is not ensured in these
areas, because the distance from service reservoir, limited storage capacity, difference in ground
2 As on March 2016.
http://indiawater.gov.in/IMISReports/Reports/Physical/rpt_RWS_CoverageOfHabitation_D.aspx?Rep=0. 3 MDWS IMIS at
http://indiawater.gov.in/IMISReports/Reports/Physical/rpt_CoverageIndividualHousePipConnection_D.aspx?Rep=0
&RP=Y.
12
levels, and installation of online pumps to draw water from water-mains affect the service
delivery.
Access to sanitation services is also a challenge. Although more than 85 percent households have
access to toilets in rural areas of the state, only 1,274 Gram Panchayats (GPs) out of the total
7,972 GPs have achieved Open Defecation Free (ODF) status (as on August 16, 2016), which
represents about 16 percent of the total GPs in the state. Achieving statewide ODF status is a
priority with the Government of Uttarakhand (GoUK) for meeting the SBM-G targets for
October 2019. On the urban front, about 96 percent urban households have access to toilets.
The proposed program development objective (PDO) is to improve access and quality of water
services in peri-urban areas and strengthen institutional capacity for sustainable water service
delivery in the state of Uttarakhand. The GoUK has defined ‘peri-urban areas’ as settlements
with the following characteristics: (a) a population density of at least 200 persons per square km;
(b) located within 10 km aerial distance from the existing limits of a statutory town/municipality
or ULB; and (c) not upgraded or merged into statutory town as on the date of negotiations.
Achievement of the PDO will be measured using two indicators: (a) number of people receiving
high-quality water services and (b) operation and maintenance (O&M) cost recovery for water
services. ‘High-quality water services’ implies 24-hour water supply meeting the GoI water
quality standards, supplied at a minimum pressure of 12 m at predetermined points in the
distribution network for no less than 300 days in a year, unless the service area is declared a
disaster-affected area. ‘O&M cost recovery’ on the other hand, is the ratio (expressed as
percentage) of water sales revenue and/or government subsidy to the cost of operating and
maintaining water supply systems in targeted peri-urban areas.
Key Program Results
The three result areas to reflect and measure success in achieving the PDO are
Result Area 1: Improved policy, planning, and M&E systems;
Result Area 2: Improved capacity for sustainable water services delivery in peri-
urban areas; and
Result Area 3: Increased access to high-quality water services in peri-urban areas.
To accomplish these results and to track and measure the intermediate results toward the PDO,
six indicators have been identified as the Disbursement-linked Indicators (DLIs) for the program.
PDO and Intermediate
Results
Results Indicators
DLIs Other Results Indicators
(Not Linked to Disbursements)
PDO indicators O&M cost recovery for water supply services
(DLI#4)
No. of people receiving high-
quality water services
13
PDO and Intermediate
Results
Results Indicators
DLIs Other Results Indicators
(Not Linked to Disbursements)
Result Area 1: Improved
policy, planning, and
M&E systems
A service-oriented water supply policy is
adopted and implemented across the state
(DLI#1)
No. of approved master plans for water supply
and sanitation in peri-urban areas (DLI#2)
Strengthened M&E system for the sector
(DLI#3)
Annual report on water
services performance in peri-
urban areas
Result Area 2: Improved
capacity for sustainable
water services delivery in
peri-urban areas
No. of sustainable water supply systems in
peri-urban areas (DLI#5)
Performance agreement
between the GoUK and
service providers signed
Professionalization plan for
UJS developed and
implemented
Result Area 3: Increased
access to high-quality
water services in peri-
urban areas
No. of new house connections receiving a
high-quality water service (DLI#6)
Length of new pipelines
installed
Length of pipelines
replaced/rehabilitated
Note: M&E = Monitoring and Evaluation.
The choice of DLIs was based on four factors: (a) signaling role of the indicator (that is, a critical
action, output, or outcome in the results chain); (b) perceived need to introduce a strong financial
incentive to deliver the activity, output, or outcome; (c) practical aspects of verifying
achievement; and (d) the GoUK’s capacity to achieve the DLI during the period of World Bank
support.
Proposed Program-for-Results Operation Context
WSS (100% Coverage): Requirement and Availability of Funds
Requirement Average Current Availabilitya
INR US$ INR US$
Crores Million Crores Million
Urban 8,400 1,235 67.66 9.95
Rural 12,451 1,831 489.94 72.05
Total 20,852 3,066 557.60 82.00
Annual requirement 1,390 204 557.60 82.00
Note: a. Average of last four years (2011–2015).
Program Description
The GoUK has prioritized WSS as a key area of its development agenda. It has estimated an
investment requirement of US$3.07 billion for achieving universal coverage for WSS across the
state by 2030, including rural sanitation by 2019. An analysis of data on budgetary allocations
and releases for the last four years (2011–12 to 2014–15) for the WSS sector (both rural and
urban) shows that against an annual requirement of US$204 million, the current availability of
funds is about US$82 million.
The total credit amount is US$120 million. Out of this, a total of US$110 million will be
disbursed through the achievement of DLIs, and the rest (US$10 million) will finance specific
expenditures under a Technical Assistance component following Investment Project Financing
14
procedures. For the DLI component, the discussed allocation is as follows: up to 7 percent of the
amount (US$8 million) will be disbursed against the achievement of DLI#1, up to 7 percent
(US$8 million) against the achievement of DLI#2, up to 9 percent (US$9 million) against the
achievement of DLI#3, up to 14 percent against the achievement of DLI#4 (US$15 million), up
to 27 percent (US$30 million) against the achievement of DLI#5, and up to 36 percent (US$40
million) against the achievement of DLI#6.
The Program for Results (PforR) program (P) is expected to become effective in 2017 and span
six years, supporting the larger GoUK WSS program (p) for Uttarakhand. The program ‘P’ will
focus on improving WSS services in rapidly expanding peri-urban areas and water supply
services in select rural habitations. The GoUK has developed a list of settlements based on
vicinity to CTs and population density. From this list, the government has tentatively identified
35 priority I peri-urban areas based on development pressure and demand for services. These
areas have an estimated population of about 676,700 persons across all districts. Based on
current status of water supply coverage, number of connections, service delivery levels, and
other water supply issues in these areas, the State Water and Sanitation Mission (SWSM) will
help finalize the peri-urban areas for intervention under the program. The GoUK is also selecting
a ‘priority II’ list of peri-urban areas, based on demand and state priorities. The water supply
component of the peri-urban areas will include construction, rehabilitation, augmentation, and
extension of existing water supply systems in dense clusters/zones of peri-urban areas. The water
supply component for rural habitations will support piped water coverage for uncovered rural
habitations, in continuation of the project that was recently closed.
The GoUK intends to use the program ‘P’ to improve service level from the present rural water
supply standards (55 lpcd, 7 m terminal pressure, and intermittent supply) to meet the peri-urban
demand (up to 135 lpcd, 12 m terminal pressure, metered connections, and continuous supply)
and assist establishment of sound service delivery in the peri-urban areas. Pumping schemes
based on groundwater (tube well), sub-surface water (infiltration well/infiltration gallery),
surface source (river and rivulet), and gravity schemes with sources such as rivulets and springs,
will be harnessed, including connecting with existing schemes, on the basis of technical
feasibility. The program ‘P’ is expected to have a significant impact on improving the sector
performance as a whole by bringing in the much needed focus on peri-urban areas as well as
establishing ways to respond to emerging challenges in the sector that can be adapted in other
parts of the country.
15
Chapter 2: ESSA - Purpose, Scope, and Methodology
This section talks about the rationale for the environmental and social assessment of the
proposed program, the methodology employed for the assessment, and its scope. It then goes on
to detail the actual steps taken in the assessment and the instruments and sampling used to
ensure representativeness of the findings.
PforR Financing and Environmental and Social Assessment
The proposed ‘Uttarakhand Water Supply and Sanitation Program for Peri-Urban Areas’ will
focus on improving WSS services in select peri-urban areas of the state. This is to be
implemented through the PforR financing modality. Therefore, based upon the PforR
requirements, a detailed Environmental and Social Systems Assessment (ESSA) has been
undertaken to support the program design. This assessment looks at the relevant policy-legal
environment pertaining to social and environmental systems, the program implementation
agencies, and their capacities to manage identified environmental and social impacts and risks
associated with the Program. Because the ESSA is a systems-level assessment, it also assesses
the existing government institutional systems, legislations, and program procedures against the
core ESSA principles, that is, the extent to which the program systems are aligned to these
guiding principles. These six core principles, specific to environmental and social parameters,
are reviewed against proposed program interventions in this assessment, based on the areas in
which the program investments are likely to be made.
Apart from assessing the program against the World Bank policies (PforR Financing Policy, July
2015), the assessment also looks at gaps in policies and implementation where systems may need
further strengthening for enhancing the programmatic social and environmental impacts. Based
on this overall assessment, the ESSA recommends certain program actions for further
strengthening the program and for mitigating/minimizing possible risks that may emerge from
the likely program investments.
Objectives of the ESSA
This ESSA accordingly analyzes the WSS sector for the state of Uttarakhand as a whole and tries
to understand the extent to which the existing program systems align with the following six core
principles identified in the World Bank policy.
(a) Promote environmental and social sustainability in the Program design; avoid,
minimize, or mitigate adverse impacts; and promote informed decision making
relating to the Program’s environmental and social impacts.
(b) Avoid, minimize, or mitigate adverse impacts on natural habitats and physical
cultural resources resulting from the Program.
(c) Protect public and worker safety against the potential risks associated with (i)
construction and/or operations of facilities or other operational practices under the
Program; (ii) exposure to toxic chemicals, hazardous wastes, and other dangerous
16
materials under the Program; and (iii) reconstruction or rehabilitation of
infrastructure located in areas prone to natural hazards.
(d) Manage land acquisition and loss of access to natural resources in a way that avoids
or minimizes displacement and assists the affected people in improving, or at the
minimum restoring, their livelihoods and living standards.
(e) Give due consideration to the cultural appropriateness of, and equitable access to,
Program benefits, giving special attention to the rights and interests of the
Indigenous Peoples and to the needs or concerns of vulnerable groups.
(f) Avoid exacerbating social conflict, especially in fragile states, postconflict areas, or
areas subject to territorial disputes,
in the WSS sector in the state of Uttarakhand.
Scope of the ESSA
The ESSA focuses on the capacities of existing institutions and organizations for ensuring
environmental and social safeguards, including regulations and procedures that govern them.
The assessment also tried to understand the existing outreach strategies, their ability to prioritize
coverage of predominantly ST/SC/minority habitations or fringe settlements, social capacities of
implementing staff and user committees, implementation and coordination arrangements for
assuring accountability and transparency, extent of community ownership of WSS schemes,
potential risks of conflicts emerging from inequity in resource sharing, practices for community
engagement in the WSS sector and grievance redress mechanisms (GRMs) available in the state
for providing accountable and quality WSS services.
Based on this assessment, ESSA recommendations actions to be included in Program Action
Plan (PAP). The draft ESSA will be disclosed and stakeholders will be consulted before its final
appraisal. The final ESSA, after incorporating stakeholder comments, will be disclosed on the
website of the Department of Drinking Water (DDW) and the GoUK and the World Bank
InfoShop.
Methodology for Environmental and Social Assessment
This assessment uses both primary and secondary data to understand the working of program
systems. It identifies the strengths, benefits, opportunities, and risks of the current institutional
structure and the legal-policy environment at four levels - state, division, district, and
panchayats/village/habitation. Because the upcoming program is to be operationalized in peri-
urban areas of Uttarakhand, the ESSA visited and attempted to understand issues in similar
regions so that specific WSS challenges of peri-urban areas could be identified and incorporated
in the final analysis. Thus, peri-urban or rural areas close to larger towns and cities in the
Kumaon and Garhwal Division, which included Dehradun-Rishikesh belt of Garhwal and the
Nainital-Haldwani belt of Kumaon Division were chosen for data collection. (Annex 1 - List of
People Consulted and Places Visited)
17
Key steps in the ESSA included
(a) Reviewing the existing environmental and social and legal frameworks relevant to
the program interventions and potential areas of investment in the WSS sector;
(b) Mapping and assessing the existing institutional and organizational systems,
processes, and procedures for implementing programs and the existing
environmental and social systems in place within these institutions;
(c) Analyzing the institutional capacities of key stakeholders for managing the potential
environmental and social impacts arising from program actions;
(d) Identifying potential environmental and social impacts and risks applicable to the
program interventions;
(e) Assessing the program system performance with reference to the core ESSA
principles of the PforR instrument and identifying gaps in program performance; and
(f) Recommending actions to address gaps emerging from the assessment to enhance
the positive social and environmental impacts of the program.
As part of the methodology development, preliminary consultations were held with key officials
of Uttarakhand Pey-Jal Nigam (UJN), UJS, and SWAJAL at the state level and visits to some
rural/peri-urban areas of the Dehradun-Mussoorie region were done to develop understanding
about the nature of challenges and expectations of peri-urban communities with regard to WSS
services. This helped in getting a perspective on implementation challenges and framing the
methodological questions and instruments for the ESSA.
Review of Secondary Data
(a) Before this program, the World Bank and the GoUK have been working closely in
the Rural WSS (RWSS) sector, because of which there exist a number of progress
reports, management information system (MIS) data, studies, and assessments on
the implementation of WSS schemes and programs. This includes both social and
environmental assessments; implementation guidelines such as Environmental
Codes of Practices (ECoPs); capacity-building modules; and information, education,
and communication (IEC) strategies. This information was reviewed to get an
overall understanding of the sector, past interventions, and their challenges and for
developing a perspective on the state’s sectoral strategies and understanding the
implementation status.
(b) Relevant state-level information available with various departments and agencies—
such as the DDW; SWAJAL Program Management Unit (PMU); UJN; UJS;
SWSM; Central Pollution Control Board and State Pollution Control Board (SPCB);
State Departments of Forests, Panchayati Raj, Rural Development, Social Welfare,
and Urban Development; and State Training Institutions (STIs) like Uttarakhand
Academy of Administration and Indian Institute of Technology (IIT) Roorkee—
were collected physically or from the public domain, reviewed, and analyzed. Key
18
GOs and DOs, legislations, policies, program procedures relevant to the WSS sector
in Uttarakhand, and existing training manuals/program guidelines for the identified
implementing agencies are some of the other secondary data sources that were used
by the team for this assessment.
Primary Data Collection
Primary data collection and its assessment took place at four levels - state, division, district, and
panchayats/village/habitation. Discussions were held with relevant state-level officials of WSS
implementation agencies such as the UJN, UJS, and SWAJAL; officials and agencies or
departments that partially or indirectly work in the WSS sector; and nongovernmental
organizations (NGOs) working on water and sanitation in the state.
District and field offices of WSS agencies were also consulted with to understand the current
status and key issues. This was to get an overall understanding on the implementation of program
safeguards in the previous World Bank-assisted RWSS project, GoI-funded schemes, and the
statewide approach. Private operators who provide ancillary services were also consulted in this
process.
Extensive field visits, including discussions with community stakeholders in peri-urban and rural
areas (in regions where the program is likely to be implemented) were also undertaken. This
included field functionaries of implementing agencies, User Water Supply and Sanitation
Committee (UWSSC) members, elected representatives, staff of NGOs/SOs, and frontline
workers. Community members/users, including those from vulnerable groups - SC/ST,
minorities, Below The Poverty Line (BPL) households, and women were also consulted to
understand issues of access, equity, and participation in planning and management of WSS
schemes, role of local bodies, community engagement, and grievance redress systems for the
sector. These field visits included sites used as water sources, pumping stations, reservoirs,
ongoing schemes, water treatment plants (WTPs) and sewerage treatment plants (STPs),
households, and so on.
All field visits were made along with field-level representatives of at least one of the District
Implementing Agencies (DIAs) designated by the state, and the sites to be visited were finalized
in consultation with these representatives.
Data Collection Instruments
For state, district, and sub-district stakeholders, checklists were used for guiding discussions
(Annex 2 - Checklist for the Social Assessment).
At the community level, a consultative process was used to understand concerns, needs, and
possible impacts. These include focus group discussions (FGDs) with Panchayati Raj Institution
(PRI) members and women’s groups, open discussions/meetings, and personal interviews.
Discussions were also held around existing community and individual WSS assets with existing
users and those excluded from schemes. These discussions centered around issues of technology,
O&M, community engagement, capacities and systems, construction, design, and management,
apart from issues of equitable access, inclusion, and accountability.
19
Key informant interviews (KII) and FGDs were also held at the state and district levels with
various important stakeholders, including representatives of the DIAs and elected bodies. In most
cases, these findings were corroborated through primary research and triangulation before being
made part of this assessment.
Sampling for the Field Visit
Uttarakhand is divided into two divisions, Garhwal and Kumaon, which include both hills and
plains. The planned program is proposed to be implemented in both these regions of the state.
While the program design workshop (March 15–16, 2016) potentially identified six peri-urban
areas that could become part of the project, four regions were covered by the ESSA team—two
each in Garhwal and Kumaon.4 Given the different topography, type of WSS systems, locational
variations, and their related challenges and other conditions, those peri-urban and rural areas
were selected for field visits that were likely to be representative of the final program area.
The assessment considered a combination of relatively new schemes, old schemes, and schemes
handled by different agencies during the field visits. Also, schemes running on surface water and
groundwater, including use of different water systems such as springs and traditional water
tapping systems such as gadheras, rivers, and so on for water supply, were visited to inform the
ESSA. In addition, levels of poverty, concentration and spatial spread of vulnerable
communities, and nature of local economy were also used as criteria for selection of sites.
The ESSA has tried to capture the diversity (of programs and regions) by selecting areas where
multiple parameters could be covered. These include lower hills, foothills, plains, valley, areas
with ease of access, and remote areas with scattered settlements. Because Uttarakhand’s
economy includes pilgrimage centers, where provisioning of WSS services for tourists is an
enormous challenge and which have also become peri-urban areas with high population growth,
the assessment tried to understand specific challenges of such areas using a social and
environmental lens. Other filters that reflect environmental and social concerns, such as
proximity to forest areas, disaster-vulnerable areas, and so on, were also considered while
identifying this sample.
A total of 18 sites were visited by the ESSA team, and following was the variation captured
through these visits:
Characteristic Sites Visited
Representation of regions Kumaon (7 sites) and Garhwal (11 sites)
Nature of intervention STPs (4 sites), WSS schemes (14 sites), WTPs (2 sites)
Topographical and cultural variation Hilly (7 sites), plains (7 sites)
Age of scheme New schemes (4 schemes), old schemes (10 schemes)
Schemes implemented by different DIAs 6 SWAJAL, 5 UJN, and 11 UJS managed WSSa
Note: a. Some WSS schemes had more than one DIA.
4 The study was initiated on March 18 and fieldwork was completed on May 9, 2016, during which time the
identification of 35 CTs likely to be part of the new program had not been finalized.
20
A three-member team undertook this assessment. This included two Environmental Specialists
and one Social Development Specialist.
Environmental and Social Analysis
The assessment evaluated the WSS subsector considering the proposed program ‘p’ design and
existing implementation arrangements around five areas - strengths, benefits, gaps, opportunities,
and risks. This included an analysis of existing implementation and identified social and
environmental concerns with respect to relevant and prevailing legislations, institutional
structures, implementation mechanisms/modalities, and governance structures. It helped in
identifying possible project benefits and ways to further enhance social and environmental
benefits from the program. The assessment also looked at direct, indirect, and cumulative
impacts that may arise and possible externalities that could affect program activities. According
to the ESSA methodology, a risk management approach was used to assess the program
management capacity and the significance of potential environmental and social effects.
Consultation and Disclosure
Before finalization of the report, this draft ESSA will be disclosed and stakeholders will be
invited to comment. Pertinent comments and factual discrepancies will be addressed for further
strengthening and finalizing this report.
21
Chapter 3: Existing Environmental Social Management Systems
This chapter examines the existing systems for environmental and social management that are
relevant to the water supply and sanitation sector in Uttarakhand. This includes the policy and
regulatory frameworks, national and state schemes, and programs for the WSS sector.
Regulatory Framework
The existing regulatory framework for the purpose of this discussion has been grouped into three
separate sections. The first is general regulations and policies that are relevant from both the
social and environmental perspectives. Here, the relevant policies and regulations are grouped as
National and State Regulatory Frameworks. The second part discusses regulations specifically
relevant to environmental safeguards, while the third section looks at those relevant to social
safeguards. It then discusses the major government notifications and orders relevant to the WSS
sector and their components on social and environmental management. It concludes by
describing those national- and state-level programs and schemes that either directly work on
WSS issues or contribute resources for WSS-related activities.
General Regulations
National-level Regulatory Framework
The National Water Policy, 2012. The policy notes that access to safe water for drinking and
other domestic needs continues to be a problem with skewed availability that varies between
regions and communities, with unreliable water supply being a potential source of social unrest.
It says that lack of access to water for sanitation is a serious problem and along with industrial
effluents has the potential to pollute drinking water sources. According to the policy, public
agencies in charge of water-related services take decisions that do not involve the local
stakeholders resulting in poor, iniquitous, and unreliable services. It calls for transparent and
informed decision making based on principles of equity, social justice, and sustainability and
involvement of the community in planning, development, and management of water resources. It
makes local governments (in addition to center and state) responsible for providing minimum
quantity of potable water to each household, while considering the needs of women, SC/ST
communities, and other vulnerable groups.
It observes that disparity in stipulations for rural and urban water supply needs to be eliminated
and calls for improved water supply in rural areas and creation of least water-intensive sanitation
systems in rural areas. It also calls for ensuring minimum base flows of rivers and the need to
understand ecosystem needs. The policy suggests the use of hydrological unit as a basis for
planning water resources and to consider the impacts of climate change and possible changes in
availability of water.
73rd and 74th Constitutional Amendment Acts, 1992. These acts pave the way for
decentralization and local governance through the three-tiered system in rural and urban areas.
The local bodies are mandated with functions for local planning for economic development of
areas within their jurisdiction and to work for social justice, including the development of
22
socially and economically weaker sections. These acts provide reservation of seats for women,
SCs, STs, and other backward communities in each tier/body. The 73rd amendment transferred
28 subjects to the rural local bodies (RLBs) and the 74th amendment gave powers under 18
subjects to the ULBs, which include drinking water supply and sanitation.
Under the 73rd Constitutional Amendment, the panchayat also has responsibilities for water
management, minor irrigation, drinking water, maintenance of community assets, minor forest
produce, agriculture, agricultural extension and animal husbandry, and health and sanitation
within its jurisdiction.
The 74th Constitutional Amendment provides authority to the ULBs to function as bodies of self-
governance and include responsibility for urban planning, water supply, public health, sanitation
conservancy, environmental protection, public conveniences, and slum improvement and
upgrade. Therefore, apart from infrastructure management, they also become responsible for the
management of resources and support actions to ensure water quality and sustainability.
The Right to Information Act, 2005. This act provides for transparency and accountability in
the functioning of public systems, by allowing citizens to seek and demand information from
public and quasi-government offices on a subject relevant to them. The act is also an instrument
of grievance redressal because it empowers citizens to demand information on the status of a
given issue. The act covers all subjects and institutions funded through public resources and
designates focal points in each public institution to be accountable for providing timely and
correct information sought by the citizens under the act.
The National River Ganga Basin Management Bill, 2012. There are a number of activities
prohibited under the National River Ganga Basin Management (NRGBM) Bill, including
diversions of flows or storage of water without considering its ecological flows, dumping of
waste in the rivers or active flood plains, and encroachment on river banks or active flood plains.
Restricted activities in Class II and other smaller towns and villages include the restriction of
mining on the river bed. It also mentions the need for appropriate authorities to, where feasible,
provide sanitation facilities and construct wastewater treatment facilities. The proposed program
will have to consider these restrictions and prohibitions while identifying infrastructure and the
program design.
State-level Regulatory Framework
Uttarakhand (U.P.) Water Supply and Sewerage Act, 1975.5 This act provides for the
creation of state-level agencies—the UJN and UJS for implementing and managing WSS-related
schemes—and spells out their powers and functions. It makes the UJN liable to render all
necessary services with regard to WSS to the local bodies and disburse loans to them for their
WSS schemes. The UJS has been assigned the responsibility to plan, promote, and execute an
efficient scheme on water supply; provide water supplies in times of any emergency; and acquire
5 The act also provides for the UJN to take up O&M functions - Section 14 (X) provides for the UJN to run and
operate any waterworks or sewerage system for a specified period, if asked by the state government; Section 19 -
where no UJS entity has been established in certain rural areas, the UJN will perform the functions of the UJS.
23
and possess land to carry out any water supply/sanitation-related works. Section 33 (1) of the act
provides that after the UJS is made responsible for an area, all WSS services, including the
infrastructure created for them and all the rights, liabilities, and obligations of local bodies to
these services and infrastructure, will be vested, stand transferred to, and be subject to the control
of the UJS. Where the UJS and local bodies are managing WSS services in a contiguous area,
they would be liable to coordinate their activities (Section 35). Section 49 (2A) provides that the
state may transfer the management of a WSS scheme to the UJN in case of mismanagement by
the local body or by the UJS.6
Uttarakhand Jal Sansthan Water Supply and Sewerage Bylaws, 2008. These rules notified in
2011 designate the competent authorities for sanctioning water supply connections in the state.
They treat water supplied to hospitals, old age homes, orphanages, religious places, schools,
charitable institutions, and rescue homes as consumption for domestic purposes and exempts
them from paying commercial tariff. They give the officials of the UJS the power to provide or
deny water supply connection based on location and feasibility of the unit and provide temporary
connection for house construction. The bylaws consider equity and provide for only one
connection per premise and prohibits (and also provides for penal action) the installation of
pumping devices on the mains and service pipes or use of water from a domestic connection for
nondomestic purposes.
Kumaon Water Rules, 1917 and 1930. These rules substituted the customary rights of the local
communities over their water resources with a more formalized and ‘rational’ state system of
water allocation for various purposes - drinking, water irrigation, and other uses. The rules
marked a shift from the customary handling of water resources based on the principle of ‘prior
use’. Therefore, in case of conflicts between individuals, communities, and so on, and where the
rights of the state are not in contention, the concept of prior use rights prevail. However, these
rules also state that both the beds and water of all rivers and natural streams, lakes, natural ponds,
and other collections of still water within the hill tracts of the Kumaon division are the property
and subject to the control of the state. The rules also shift from the customary rights to a state
allocation of water resources.
Kumaon and Garhwal Water (Collection, Retention, and Distribution) Act of 1975. This act
was enacted to regulate and control water resources so as to ensure its rational distribution for
various proposes. Through this act, the individual and community customary rights to water were
abolished, and all water sources were brought under the jurisdiction of the state. Therefore, in
case of any conflict on rights on water resources that includes the state, the rights of the state
shall prevail, even if there were earlier customary rights to the resources. Construction of any
private water channel, tank, reservoir, or water mill or installation of any pumping machine or
pipeline for taking water from any water source requires the permission of the Sub-divisional
Magistrate (SDM). With regard to resource conservation, the act empowers the state government
to demarcate areas to protect water resources and to declare these areas as a ‘protected area’
(PA). This includes prohibiting cutting trees, bushes, and shrubs or burning dried grass in such
6 The act is slightly exclusionary in that it provides for water supply to domestic users at minimal cost for premises
situated within 30 m of the existing main, while applicant bears the charge of extension if the distance is higher.
24
areas without prior permission of the Sub-divisional Officer. However, the government is yet to
identify such PAs.
Uttaranchal River Valley (Development and Management) Act, 2005. This act provides for a
River Valley Development Authority headed by the Chief Minister to oversee the sustainable use
of water and other natural resources in the river valley, set up and maintain grievance redressal
cells and water quality monitoring systems at different locations in the river valley,
approve/disapprove any development scheme in the command area of the valley, prepare a
master plan for the development of the basin, and disallow any construction or development in
the catchment of the river valley or dam/reservoir in contravention of the master plan prepared
by the authority.
River valley development authorities can be established, as required, in the state under this act,
and so far, there is one authority established. This is the Bhagirathi River Valley Development
Authority. The aim of this authority is to ensure balanced use of natural resources, maintain
ecological balance in the basin, and rehabilitate damaged ecosystems. The authority may also
develop a master plan for its jurisdiction that will regulate and define activities in the area. Till
such a master plan is developed, the authority has the right to regulate any development activity
planned under its jurisdiction. Any activity under the program that takes place in the authority
jurisdiction, including sourcing raw material or disposing waste, would require prior approval
and adherence of plans to the master plan.
Uttarakhand Water Management and Regulatory Act, 2013. This act ensures sustainable,
equitable, and judicious management and optimal allocation of the state’s water resources
through the establishment of a state water management and regulatory authority. The authority
will determine and allocate water resources among various user categories based on availability
at the project/utility level and establish a system to monitor and measure the actual use among
different user categories; fix, regulate, and monitor a water tariff system; monitor water
conservation and management practices; support the enhancement and preservation of the water
quality; and determine standards for performance of water supply services and efficient water
use by consumers. A water management and regulatory authority is still to be constituted by the
state to oversee the implementation of this act.
According to this regulation, the State Water Authority will determine allocation and distribution
of water resources based on the State Water Policy. It will also review and clear new water
resource projects to ensure their integration with the Integrated State Water Plan and Basin-level
Plans. Monitoring and enforcing entitlements is also under the jurisdiction of this authority. In all
areas where such plans are made, the actual use of water resources would need to follow
identified entitlement. Presently, there is the Ganga Basin Management Plan, and supporting
legislation, that would be relevant to this project.
The Uttarakhand Flood Plain Zoning Act, 2012. According to this act, flood plain zoning is to
be undertaken for all river flood plains in the state. Based upon the identified zoning, activities
should ensure public health and safety and reduce inconvenience to general public. Prohibition or
restriction of activities in the flood plain may be notified according to each flood plain area’s
25
specific needs. This act would be relevant for any activity such as the development of rising
mains near or in the flood plains.
The Uttarakhand Panchayat Act and Panchayat Laws Act, 1947 (with amendments of
2002, 2005, and 2007). This act assigns the GP functions related to construction, repair, and
maintenance of public wells, tanks, and ponds for supply of water for drinking, washing, and
bathing purposes and the regulation of sources of water supply for drinking purposes. It also
makes the GP responsible for the welfare of the weaker sections including the SCs and STs and
the welfare of handicapped and other vulnerable groups by ensuring their participation in social
welfare activities and programs specifically aimed at the development of SC/ST communities.
The act also makes the panchayat responsible for maintenance and preservation of community
assets and tasks it with the responsibility to prepare Panchayat Development Plans and
levy/collection of taxes assigned to it, including a water rate where water for domestic
consumption is supplied by the GP. Section 30 provides for the constitution of joint committees
of two or more GPs to frame a scheme, exercise powers bestowed on the GPs. Section 33 gives
the GPs the power to acquire land by private negotiation or request the District Collector to
acquire it on their behalf.
The Uttarakhand Panchayat (Third Amendment) Act 2003 paved the way for giving legal status
to the GP subcommittees (such as the UWSSCs) by declaring that the state government may
constitute a subcommittee for a particular subject to assist the main committee, by notification,
under Section 29 of the 1947 Act.
According to this 2003 state act, the GP will also provide agricultural extension activities,
develop and manage ‘wastelands’, manage and distribute water from minor irrigation projects,
promote and develop social and farm forestry, and maintain community assets. Therefore, water
conservation and the management of water quality and water sustainability are activities that the
GP is involved with and require adequate capacity and guidance to perform this role.
The Uttaranchal Disaster Mitigation, Management, and Prevention Act, 2005. Under this
act, there is a need to prepare master disaster plans and strategies. These plans and strategies may
be relevant to identify vulnerabilities to disasters in the planned project area and develop possible
management, mitigation, and prevention actions to ensure minimum impact from disasters to
infrastructure developed under the project.
The roles of the State Disaster Management Authority and the State Commissioner for Disaster
Management created under this act are also to assist and provide relief to the disaster-affected
community; prevent disruption in essential services to the community; and provide relief
including food, medicine, drinking water, and so on to the community.
Environmental Regulations
Environment: Environmental Protection Act (EPA), 1986 and EPA Notification, 2006. This
act gives powers to the central and state governments to protect and manage the environment and
lay down standards as required. The 2006 notification identifies a number of activities that may
require an Environmental Impact Assessment (EIA) and includes construction, expansion, and
26
modernization of Common Effluent Treatment Plants (CETPs) but not STPs. Brick kilns within
200 m of the river are not permitted, and river sand mining without required permits and
environmental clearance is banned under the EPA. In case of any work that may affect or is in
eco-sensitive zones, clearance under the EPA will be required.
Guidelines for eco-sensitive Zones, 2011. Till states identify site-specific eco-sensitive zones,
10 km from national parks and sanctuaries are considered eco-sensitive areas and protected
under the Wildlife (Protection) Act, 1972 and the EPA, 1986.7 Also, states may identify further
eco-sensitive zones for protection. All eco-sensitive zones are to have specific management
guidelines, and each such zone or area needs to have guidelines to protect them. Two eco-
sensitive zones have been identified in Uttarakhand, of which the Doon Valley is likely to be
partially adjoining or be in the identified project area. However, Uttarakhand still needs to
delineate eco-sensitive zones/areas around PAs. Issues that could be relevant for this project may
include discharge of effluents and solid waste on land or water bodies, and prohibition of
movement of vehicular traffic at night. Felling of trees, introduction of exotic species (which is
unlikely under this project as planned infrastructure is to be limited to areas of a maximum of
10*10 mts, and in compounds of the department or other government lands and no landscaping is
expected) and air and vehicular pollution are suggested to be regulated. Refer to annexes 4, 5,
and 6 for general eco-sensitive areas and zones and list of activities permitted, restricted, and
prohibited according to the guidelines; the jurisdiction of the Doon Valley eco-sensitive zone;
and the list of all PAs.
Forests and biodiversity: India Forest Act, 1927, Forest Conservation Act (FCA), 1980, The
India Forest (Uttaranchal Amendment) Act, 2002, and Uttar Pradesh Tree (Protection)
Act, 1976 (Amendment 1998). Any tree and forest clearances and quarrying, including
use/removal of forest products from reserved forests is only permitted after taking written permit
from the Forest Officer or state government, as appropriate. The state government can make
rules as required to manage its forests. For any non-forest activity in the forest area, including
acquiring land, permission needs to be taken under these acts. For any forest clearance,
reforestation activities would be according to the law. Within reserved forests, cutting or
damaging trees, clearing land for any non-forest purposes, and quarrying are not permitted.
Similarly, in case of forest land and waste land not belonging to the government, there are a
number of activities regulated or prohibited and include clearing of vegetation. The FCA also
identifies required procedures for clearances in case of the need to convert forest land for non-
forest purposes. The FCA is supported by the Forest Conservation Amendment Rules, 2004, that
provide guidelines for transmission lines in forests and compensation for forest land diversion.
The Ministry of Environment and Forests (MoEF) guidelines dated October 16, 2000, suggest
that certain infrastructure such as underground water pipelines may be allowed to be laid in areas
governed under the FCA and specify certainty parameters for this. This permission is to be
reviewed based upon the permission period.
7 The National Environment Policy 2006 defines environmentally sensitive zones and areas as those with identified
environmental resources having ‘incomparable values’ which require special attention for their conservation.
27
Wildlife (Protection) Act, 1972, and The Wildlife (Protection) Amendment Bill, 2013. Under
these acts, any damage or destruction of plants from notified forest land or area is prohibited.
Also, permission for any entry or activity in a wildlife sanctuary is to be taken from the Chief
Wildlife Warden of the area. PAs under this act are to be managed according to management
plans identified for them. Any activity that may affect or be in eco-sensitive zones may require
clearance under this act.
Wetland (Conservation and Management) Rules, 2010. Activities such as water withdrawal;
impounding, diversion, or interruption of water sources within the local catchment of the wetland
ecosystem; or activities that may affect the ecological characteristics require state permission.
These regulations may be relevant to various project activities. The proximity of the planned
project area to PAs and forest department land may be relevant, such as in Haldwani where at
present, sewage pipelines discharge their untreated effluents directly on forest land and an STP is
yet to be built; and Doiwala, a peri-urban area of Dehradun, which is near Rajaji National Park.
For any pipelines in the forest areas, clearance under these acts and, if required, the wildlife and
environmental protection acts and following their guidelines would be required. Equally, any
vegetation and tree clearance would be dictated by these regulations, and required permission
should be taken from the state Forest Department. For any activity planned that may need to use
any PA land, or lands under these acts, permission from the applicable act would be required and
would also need to be included in the area’s management plan. The wetland regulations may be
relevant for any activity around wetlands described in the regulation.
Environmental quality and pollution: Water (Prevention and Control of Pollution) Act,
1974, and The Water (Prevention and Control of Pollution) Cess Act, 1977. All trade
effluents, discharge from any activity, or the disposal of any waste into water systems, including
that which may affect subterranean systems, should be in accordance with the standards laid out
under these regulations. Also, any construction of weirs, sluices, and so on that may impede the
flow and aggravate or lead to pollution is not permitted under the regulations. Any new outlets or
discharges from treatment systems or their extensions would require a consent from the SPCB,
and follow the procedures laid out by them, before commencing the activity. The legislation on
cess states the need to pay a cess based on water consumption, including for domestic purposes.
However, there is a 25 percent rebate for installing an STP and cleaning the water before
discharge.
The Noise Pollution (Control and Regulation) Rules, 2000. The level of noise from any
activity in all areas is dictated by these rules. Therefore, construction and regular running or
maintenance activities under the project would need to ensure that the rules are followed.
Air (Prevention and Control of Pollution) Act, 1981. Ambient air quality standards are set by
the Central Pollution Control Board (CPCB) and SPCB for industrial, residential, and
ecologically sensitive areas under this act and would need to be followed during the construction
phase and postconstruction management. Areas where the standards may be relevant are use of
diesel generators for energy, construction vehicle movement, and other activities that may result
in air pollution. In case of the use of generators for power generation and backup, regulations for
28
both emission and noise levels have been set by the CPCB. These are for liquefied petroleum gas
(LPG), compressed natural gas (CNG), petrol, and diesel generators, such as 800 kW and below
diesel generators that require to follow emission standards identified under the Environmental
(Protection) (Third Amendment) Rules, 2013, and petrol and kerosene generators of up to 19 kW
that need to follow the standards of the Environmental (Protection) (Second Amendment) Rules,
2013.
The running and management of WTPs is likely to create both liquid and solid waste. Their
disposal should be based upon standards of these regulations and cess paid as required.
Generators procured and used must be of appropriate standards, and their regular maintenance
must be assured to ensure emissions and noise levels are within permissible limits. Any
construction or other activity would need to be within permitted noise limits as defined by the
noise rules.
Waste management: Solid Waste Management Rules, 2016. These regulations are applicable
to all waste generators, including the ULBs, outgrowths in urban agglomerations (UAs), and CTs
and, therefore, will be applicable to the project. All waste would need to be segregated at sources
into biodegradable, non-biodegradable, and domestic hazardous waste and disposed through
authorized waste dealers and systems. The ULB, UA, and CT authorities need to prepare solid
waste management plans that are to be followed in their jurisdiction, including establishing waste
disposal for different waste streams. There are a number of other legislations that support the
management of waste and are briefly mentioned here.
Batteries (Management and Handling) Rules, 2001; Manufacture, Storage, and Import of
Hazardous Chemical Rules, 1989; E-Waste (Management) Rules, 2016; Plastic Waste
(Management and Handling) Amendment Rules, 2011; and Plastic Waste Management
Rules 2016. These regulations identify management of waste that includes handling, storage, and
disposal of specific forms of waste, most of which is hazardous waste. While all these forms of
waste need to be disposed only though authorized dealers and collection centers, in case of e-
waste, storage cannot be more than 180 days.
Others: Guidelines/Criteria for evaluation of proposals/requests for groundwater
abstraction, with effect from November 16, 2015. According to these guidelines, abstraction of
groundwater in notified areas through any energized means will be only for drinking purposes,
and after permission as identified in the guidelines and being given a No Objection Certificate
(NoC). Guidelines are also given for water withdrawal and use for non-notified areas, including
the need for an NoC. These NoCs will need to be renewed, based upon the existing conditions of
the aquifers at the time of renewal. At present, there are no notified areas in Uttarakhand.
However, as majority of the water supply under this project is likely to be sourced from
groundwater sources, these guidelines would need to be followed.
Public Insurance Liability Act, 1991. It will be applicable to those who are not covered under
the Worker’s Compensation Act, 1923 and may suffer injury because of any accident. Where
there is a need to handle any hazardous substance, the agency will need to have insurance so that
required relief is provided, if needed.
29
Mines and Mineral (Development and Regulation) Act, 1957 and The Uttarakhand Minor
Mineral (Concession) (Amendment) Rules, 2015. Mining activities under this act are only to
be taken based on permissions identified under this act. The schedule of rates for mineral royalty
is given in the Uttarakhand rules.
Ancient Monuments and Archaeological Sites and Remains Act, 1958. Area up to a distance
of 100 m from protected monuments is protected and no construction can take place. Beyond it,
up to 200 m near and adjoining protected monuments are regulated areas, and activity would be
according to the regulation in the area. In case of a chance finding during construction or other
activities, this act identifies the processes and actions that may need to be taken to protect the
area. This would be relevant in areas where project activities may create any repair, addition, or
alternation, and construction/reconstruction within these areas need prior approval of the
Archaeological Survey of India. Also, this may be relevant for any building procurement, waste
disposal, or laying of new pipelines because of project activities.
Construction and Demolition Waste Management Rules, 2016. These rules are applicable for
waste such as building material, debris, and rubble from construction, remodeling, repair, and
demolition of any civil structure. Waste generators are responsible for all such waste. In case of
at least 20 tons per day or 300 tons per project in a month, the waste has to be segregated
according to directions of the law, with submitting of a waste management plan, getting required
approvals from local authorities before starting work, and paying the required levies. These rules
identify activities for the management of the construction/demolition site such as cleaning,
storing, and disposal. These would need to be followed for any construction, refurbishing, and
demolition activity undertaken for this project.
Uttarakhand Building Construction and Development Bylaws 2011 and its amendments.
The bylaws have given standards to be followed for building construction, including for
structural safety and safeguarding from hazards. It also gives activities permissible and suggested
development concerns while working in PAs and eco-sensitive zones. These bylaws should be
followed for all construction activities.
Social Regulations
Scheduled Tribes and Other Traditional Forest Dwellers (Recognition of Forest
Rights) Act, 2006. Uttarakhand has a forest cover of more than 65 percent, and
several communities live inside the forests or on forest fringe. The Forest Rights Act
(FRA) recognizes the customary rights of such STs and other traditional forest
dwellers to access services and own resources. It also provides usufruct and
community ownership rights to forest-dwelling communities for diverting forest
land for creating basic social infrastructure, including sources of water for human
and livestock use. Section 3(2) of the act provides for diversion of forest land for
creating facilities including drinking water supply and water pipelines for these
socially and economically vulnerable communities.
Uttarakhand District Planning Committee Act 2007 and DPC Rules 2010. This
act provides for the constitution of a District Planning Committee (DPC) in each
30
district for the consolidation of plans prepared by the panchayats and municipalities
into district development plans. The development plans are to consider matters of
common interest of panchayats and municipalities located in the district, including
sharing of water, physical, and natural resources, apart from integrated development
of district infrastructure. Functions of the DPC also include determining the district-
level development priorities and programs, providing sectoral outlays in the plan and
budgets (according to district plan outlay), allocating resources for district sector
schemes, and reviewing progress of schemes under decentralized planning
framework.
Uttarakhand Right to Services Act, 2011. This act notifies a set of services to be
provided by the state within a stipulated period of time and are legally enforceable
by residents of the state. This act covers 10 departments, including the DDW. This
act guarantees a new water supply connection to a consumer within 15–30 days of
the application (wherever technically feasible), depending on the size of the
connection demanded, subject to technical feasibility, failing which the designated
officer will be penalized and the applicant will be provided the right to go in and
appeal to the notified appellate authority.
Important GOs and Notifications of the State
GO Department of Panchayati Raj, GoUK, No. 622/PGASA//92(25)/2003 dated
October 29, 2003 - On bringing 14 subjects and related departments under
administrative, executive, and financial control of panchayats. In line with the
spirit of the 73rd constitutional amendment on local self-governance, 14 subjects,
which include drinking water, health and sanitation, minor irrigation, and watershed
and their related financial and executive control, and cadres have been transferred to
the three-tiered panchayat institutions (at the appropriate level). This has been done
to decentralize implementation and for ensuring complete accountability to the
community. The Zila Panchayat (ZP) is to be given the responsibility to control
budgets and make financial allocations to departments against scheme funds
received for District Plan/State and Central Sector after inclusion of contributions
for the Tribal Sub-plan/Special Component Plan (TSP/SCP) components.
Departments are to directly transfer funds into the Gram Nidhi (GP account) for all works; the
GP is made responsible for maintaining all assets created in the panchayat and to prepare work
plans for all resources received under the 14 subjects for approval of the concerned office. The
order brings functionaries of major departments under the administrative control of the
panchayat at different levels.
Notification of Department of Panchayati Raj, GoUK, 308 /86(16)/2005 dated
May 19, 2005 - On roles and responsibilities of the GPs and UWSSCs for
drinking water and sanitation. According to the notification, for conforming to the
GoUK order of October 2003, all the GPs are to constitute the UWSSCs to function
as the subcommittee of GPs’ Standing Committee on Water Management. These
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users committees will have beneficiaries of schemes as members, with
representatives of all the GPs, Kshetriya Panchayats, and ZPs as their ex-officio
members. At least 30 percent of members will be women and 20 percent will be
from socially vulnerable communities - SC/ST.
The committee is to be responsible for all water and sanitation related works in the panchayat
and will collect community contribution (labor or cash) for running these schemes/undertaking
works; plan, execute, operate, and maintain WSS schemes; fix water tariff; and ensure
coordination with the Water Management Committee and the GP. The GP is responsible for
constituting the UWSSC, approving schemes prepared by the subcommittee and will transfer
funds for WSS schemes received from District Water and Sanitation Mission (DWSM) from its
Gram Nidhi to the UWSSC accounts within 15 days and resolve water supply related conflicts
arising within the panchayat.
DO DDW No. 2121/29/04-2/2004 dated August 17, 2004 - On bringing all WSS-
related functions, finances, and functionaries under Panchayati Raj. The DO, to
all implementing agencies (UJN/UJS/SWAJAL), is in conformity with GO. No.
622/PGASA/92(25)/2003 of Panchayati Raj Department and brings the functionaries
under the control of PRIs at appropriate level. This order makes the district/division-
level officials responsible for supporting PRIs in review of expenditure under the
District Plan Budget, inspecting and ensuring quality in execution (new schemes)
and repair works (existing schemes) being undertaken in the district, and identifying
multivillage schemes (MVSs) and submit them to the government for approval.
The order also brings all district-level officials of the UJS and UJN under the general control of
the ZP and directs these officials to act as technical adviser of the ZP for WSS schemes. Block-
level officials are to review, inspect, and provide technical support to the GP on O&M; resolve
conflicts emerging in single village scheme (SVS); and undertake need identification for new
WSS schemes in their block. At the GP level, the functionaries are to support the handing over of
schemes/hand pumps and their effective O&M; facilitate the formation of the UWSSCs in the
schemes transferred to the GP; seek funds from the GP for the maintenance, repair, and
augmentation of transferred schemes; identify sources for new schemes to be proposed for the
GP; create community awareness regarding drinking water supply schemes/policies; and support
the panchayat in fixing tariff for water use.
GO-DDW- No. 738/29 (2)/06-2 (22P)/2004 dated March 25, 2006 - On using a
Sectorwide Approach (SWAp) for all WSS schemes being implemented in the
state.8 In line with the 73rd Amendment Act, decentralized and uniform
arrangements for schemes on drinking water and sanitation are being implemented
by the state, for all schemes sanctioned from FY2006–07. According to the GO, by
the year 2010–11, all schemes, SVSs as well as MVSs, are to be implemented with a
8 These were also in line with the sector reform guidelines for Swajaldhara issued by the GoI in 2004 and
communicated to state agencies through letter No. 2120/29/04-2(22P)/2004 dated August 18, 2004, calling for the
transfer of 3Fs (funds, functions and functionaries) to the PRIs in a graduated manner and seeking help from
NGOs/community-based organizations (CBOs) in implementation.
32
SWAp in line with the sector reform policy adopted by the state. In all new schemes,
integrated investments are to be done for drinking water, environmental
sustainability, sanitation, and source sustainability and strengthening.
The UWSSCs are to be constituted for all new SVSs and MVSs that will have community
participation; the GPs will have control over all resources with responsibility for planning,
execution, and O&M of SVSs. MVSs are to be developed only if SVS is not technically or
financially feasible. Considering the technical complications of MVS, the Multivillage Scheme
Level Committees (MVSLCs) will take help from the concerned DIAs for planning and
implementation and for getting water from the source to the village boundary. All works within
the village boundary will be the responsibility of the UWSSC. All intravillage water supply
works will necessarily have a community contribution and financial requirements for O&M of
MVS beyond the ‘affordable level’ of the village will be borne by the state government through a
transparent process.
Gazette Notification by the UJS published in the Gazette of February 2, 2013
Part 1A – (according to powers provided under Uttarakhand [U.P.] Water
Supply and Sewerage Act, 1975) - On water and sewage tariff. Revised rates of
water tariff and development charges are to be fixed for metered/unmetered,
domestic/commercial, and rural/urban connections, based on whether a scheme is
gravity, low-head, or high-head. Water tariff is to be fixed based on the annual rental
value of the dwelling unit/size of dwelling in urban areas and on the number of tap
connections in a dwelling unit in rural areas. All SC/ST families/infirm/war
widows/landless laborers/BPL families are exempt from deposits/advance
payments/miscellaneous charges. However, the notification is not clear on different
rates/exemptions to these categories of households for new connection and
monthly/periodic water tariffs.
GO No. 1481/29(2)/15-29(78Pe)/2012 TC-11 dated December 10, 2015.-
Designating Uttarakhand Jal Sansthan as the state backstopping agency for
World Bank-supported WSS schemes. The order designates the UJS as the agency
for supporting the UWSSCs constituted under the World Bank-funded WSS
schemes after December 2015 (project completion). The agency is to provide
support in case of major technical problems in the schemes and provide technical
and financial support for repairing schemes affected by natural calamities, and
periodic capacity building of community and functionaries employed by the
UWSSCs.
Government Programs and Schemes Relevant to WSS
(a) NRDWP. The flagship program on drinking water supply of the MDWS aims to
enhance access to safe and adequate drinking water, within reasonable distance, to
all households in rural areas—as a public good and as a ‘basic right’—through
community-based water supply systems; it aims to involve the community in
planning, managing, and monitoring of water supply sources/schemes and create an
33
environment for communities and panchayats to take over the management and
maintenance of the schemes in their village.9
(b) Swachh Bharat Mission-Gramin/Urban. This flagship program on rural sanitation
incentivizes behavior change toward safe sanitation. The Solid and Liquid Waste
Management (SLWM) component of the SBM provides resources for the systematic
disposal and management of domestic waste. It also provides funds for improving
hygiene practices and the use of different liquid/wastewater treatment technologies.
(c) Fourteenth Finance Commission (Dr. APJ Abdul Kalam Gram Badlao Yojana).
The Fourteen Finance Commission provides a basic grant and a performance grant
to all local bodies (the ULBs and GPs) for improving delivery of basic services. The
inter se allocation of grants is to be based on the criteria adopted by the state for
devolving the State Finance Commission grants. The suggested areas for spending
the basic grant include water supply, sanitation, sewage, drainage, and solid waste
management.10 In Uttarakhand, the Department of Panchayati Raj and Rural
Development is the nodal agency for disbursing and managing grants to the GPs,
and the Department of Urban Development for grants to the municipalities. The
local bodies have to develop five-year Village Development Plans for using these
grants between 2015–16 and 2019–2020,11 highlighting the annual priorities of each
panchayat/municipality.12 All works done under the Village Development Plan are
to be executed by the GP. The guidelines provide for using 10 percent of the basic
grant for meeting the water supply charges (but not payment of arrears) and
preparing technical plans for implementing drinking water and SLWM projects.13
These plans should aim at improving the well-being of the vulnerable and
marginalized groups - SC/ST/Particularly Vulnerable Tribal Groups-
PVTGsminorities/people with disabilities (PwD)/ elderly/women/
children/migrants/bonded laborers/transgenders/victims of trafficking/trans-
humans.14
(d) Mahatma Gandhi National Rural Employment Guarantee Act (MGNREGA).
This act provides assured employment of at least 100 person-days to a rural
household in the form of guaranteed employment for unskilled and manual labor
work. The permissible works under the 2008 Operational Guidelines include source
strengthening activities in the form of renovation of water bodies and desilting of
9 The NRDWP Guidelines 2013. 10 GoUK GO No. 1513/XII (1)-2015-96(06)/2015 dated September 3, 2015 and Department of Panchayati Raj and
Rural Development GO dated September 10, 2015. 11 Uttarakhand is expected to receive approximately INR 2,347 crores (INR 1,652 crores for GPs alone) between
2015 and 2020 as a basic grant and about INR 350 crores as a performance grant. 12 Guidelines for the Dr. APJ Abdul Kalam Gram Badlao Yojana. 13 DO No. G-39011/4/2015-FD, MoPR, GoI dated December 16, 2015. 14 MoPR. 2015. “Model Guidelines for Preparation of Gram Panchayat Development Plans.”. Guidelines for release
and Utilisation of Grant under Fourteenth Finance Commission, NO 13 (32) FFC/FCD/2015–16, Department of
Expenditure, Ministry of Finance, GoI.
34
tanks.15 However, not much use of this convergence opportunity has been made by
the state for source strengthening.
(e) AMRUT/JNNURM. Having an urban focus, one of the objectives of AMRUT and
its earlier form, JNNURM, is to ensure that every household has access to a safe and
assured supply of tapped water and a sewerage connection in urban areas,
particularly for women, based on parameters and standards developed by the MoUD
- the Service Level Benchmarks (SLBs).
Water supply, sewerage facilities, and septage management are among the priorities identified by
the mission, and include augmentation of existing water supply, WTPs ,and universal metering;
rehabilitation of old water supply systems, including treatment plants; rejuvenation of water
bodies specifically for drinking water supply and groundwater recharge; special water supply
arrangement for difficult areas, hills, and coastal cities, including those with water quality
problems (for example, arsenic and fluoride); decentralization; and recovery of operational cost
in full.16 In the context of the ‘p’, the scheme becomes relevant for those peri-urban/rural areas
notified and brought within the municipal limits of cities covered under AMRUT - Dehradun,
Haridwar, Haldwani-Kathgodam, Rudrapur, Kashipur, and Roorkee.17
(f) Ekal Peyjal Yojana. This is a sub-scheme under the NRDWP of the MDWS for
incentivizing the sustainability of community-managed SVSs. This sub-scheme
provides an incentive for repair and maintenance to all the SVSs being successfully
managed by the community to the tune of 5 percent of the total allocation under the
scheme.18
(g) Uttarakhand Urban Sector Development Investment Program (UUSDIP).
Funded through both Asian Development Bank (ADB) and JNNURM/AMRUT
funds, this program is implemented by the Urban Development Department, GoUK.
It has five components - water supply, wastewater management, solid waste
management, slum improvement, and roads and traffic management. Activities
relevant to water supply include improving and augmenting water supply and the
distribution network; rationalizing, optimizing, and metering water supply; reducing
(NRW; and providing 24×7 water supply. For wastewater management, the project
will look at improvement of on-site sanitation. A total of 31 towns are covered under
this project.19
15 http://164.100.129.6/netnrega/state_html/empstatusnewall_scst.aspx?lflag=eng&fin_year=2016-
2017&source=national&labels=labels&Digest=DaNMcKCT4HZjxosanIifuQ. Uttarakhand has 11.36 lakh job card
holders, who have received 20.75 lakh person-days of employment in 2016–17 by January 2017. 16 AMRUT Mission Statement and Guidelines, MoUD, GoI, June 2015. 17 http://amrut.gov.in/writereaddata/oms/Uttarakhand.pdf. The state is expected to get INR 133 crores as central
assistance for these six cities under AMRUT in the financial year 2016–17.
http://timesofindia.indiatimes.com/city/dehradun/Six-cities-of-Ukhand-get-Rs-133-68-crore-under-AMRUT-
scheme/articleshow/50502783.cms. 18 As shared by officials of the SWAJAL PMU on March 18, 2016. 19 http://uusdip.org/sewerage.php.
35
(h) Integrated Ganga Conservation Mission - Namami Gange. It is for the entire
Ganga river basin and works to rejuvenate River Ganga, including consolidation of
existing efforts for the management of activities along the river. An action plan has
been developed for implementing the program for which seven ministries have been
working together. The activities include Nirmal Dhara, encouraging water reuse,
monitoring water quality, and developing river regulation zones along banks of
Ganga as well as bank beautification activities for selected towns along the river. A
total of INR 2,037 crores has been put aside for conservation activities and another
INR 100 crores for ghat development. Aviral Dhara is to look at enforcing river
regulatory zones along the banks of Ganga, rationalizing agricultural practices,
irrigation efficiencies, and restoration and conservation of wetlands. In Uttarakhand,
so far 18 projects have been sanctioned.
36
Chapter 4: Institutional Arrangements for the WSS Sector
This section discusses the existing institutional system for the delivery of WSS services and the
role they play on environmental and social issues. It also describes some of the other
departments and agencies that are not directly or significantly involved in the WSS sector but
nevertheless play an important oversight, regulatory, or financing role.
There is a well-established and clearly identified institutional structure to deliver WSS services
in urban and rural areas of Uttarakhand. This mainly includes the DDW, the SWSM and the
three Implementing agencies - UJS, UJN, and SWAJAL.
There are other agencies, which, depending upon their geographical jurisdiction, may also be
involved in the delivery of WSS services. Some, like the GPs and ULBs, may be directly
involved in the implementation or management of drinking water supply and sanitation schemes,
while some others like Social Welfare and Forest Department either provide specific
support/funds or provide clearances for such schemes and projects. There are yet others, like the
Nainital Lake Region Special Development Authority (NLRSDA), which may, as part of their
mandate, undertake specific projects related to water supply, sewage, and sanitation, though this
may only be a small part of their overall mandate.
37
Institutional Framework to Manage Water Supply, Sewage, and Sanitation
Agency Role in Water Supply, Sanitation, and
Sewage Role in Environmental Issues Role in Social Issues
DDW Nodal department for drinking water supply
and sanitation in the state. Provides policy
direction, budget, and work allocation to the
3 line agencies under the department.
Nodal department for the implementation of
the NRDWP, SBM, and other Centrally
Sponsored Schemes (CSSs) and state sector
WSS schemes
Provide overall guidance to ensure safe
drinking water and sanitation in the state.
Ensure universal access to safe drinking
water supply for all rural and urban
habitations.
Provide alternate and safe drinking water
supply in areas affected by poor water
quality.
SWSM - Apex
Committee and
Executive
Committee
The state’s apex policy formulating body on
rural WSS, responsible for ensuring
convergence between WSS schemes through
interdepartmental coordination
Compilation and analysis of state Annual
Implementation Plan (AIP) of schemes
under the NRDWP on rural WSS and
periodical review of progress of plan and
performance of water supply schemes in the
state.
Formulate policies to address WSS
concerns in the state and implement
them.
Assist the DDW in smooth program
implementation through required support
for coordination with various
departments.
Allocate budgets for activities that
support project sustainability, such as
source sustainability measures.
Allocate funds for providing stipulated
quantity and quality of services to all rural
areas of the state according to the NRDWP
norms.
Provide oversight to regular and inclusive
supply of potable and quality water to all
habitations, schools, anganwadis, and health
institutions and guide program managers to
make the WSS services more accessible.
Oversee preparation and operationalization of
capacity-building strategy for stakeholders,
including panchayat leaders, on water and
sanitation.
UJN Planning, survey, design, and execution of
rural and urban schemes, SVSs, and multi-
village rural water supply and sewage
schemes, including undertaking major
repairs and augmentation of existing
schemes
Authorized construction agency for water
supply and sewage schemes in the state
The UJN has engineers from civil, electrical,
and mechanical branches. Ground
implementers are usually the Assistant
Identify source and strengthening
requirements.
Identify appropriate design and
technology for the WSS infrastructure.
Take permits for activity in Forest
Department lands.
Ensure construction according to the GoI
and other relevant norms.
UJN had hired four environmental
consultants for all thirteen districts to
Design WSS schemes to provide equitable
access to all inhabitants; identify site/land
with community for setting up pumping
stations, water reservoirs, and other ancillary
constructions like treatment plants and break
pressure tanks.
Provide technical support to panchayats in
the design of SVS being implemented by
PRIs.
Finalize plan and execute schemes in
consultation with community/local bodies.
38
Agency Role in Water Supply, Sanitation, and
Sewage Role in Environmental Issues Role in Social Issues
Engineers (AEs) and Junior Engineers (JEs).
AE’s are graduate engineers in all three
engineering areas. JEs mainly hold diplomas
in civil engineering. Engineers
implementing in the field are to undertake
an SLTI training for technical and social
issues.
Infrastructure construction is usually done
by contractors/companies hired by UJN, and
UJN also monitors the construction
company.
support implementation of the SWAp
project’s environmental safeguards.
Establish the UWSSCs and MVSLCs for all
new schemes.
Provide WSS services to SC/ST habitations
through the SCP and TSP components of the
NRDWP.
UJS Planning, operating, and maintaining WSS
schemes in the state, including repair and
augmentation of old/existing schemes,
mainly MVSs
Repair and rejuvenation of all schemes
affected by natural disasters in the state
Planning, executing, and operating sewerage
treatment and disposal schemes and
treatment of trade effluents. There is a
network of 26 laboratories, which were
being run by the Federation of Indian
Chambers of Commerce and Industry
(FICCI) through a contract till recently.
Ensuring water supply during emergencies
and water scarcities and for social and
religious congregations
The UJS is staffed with graduate civil,
mechanical, and electrical engineers and JEs
with civil engineering diplomas. The UJS
engineers have undergone technical and
social SLTI training activities.
The UJS laboratories have a chemist usually
with an M.Sc. in chemistry who receives a
Strengthen source and support any
further source strengthening activities
required.
Identify appropriate design and
technology for the WSS infrastructure.
Under the SWAp, to implement their
projects, they had four environmental
specialists for all thirteen districts.
Ensure regular supply of drinking water for
all in schemes operated by the UJS (and also
sewage in areas where it is managing sewage
networks).
Take formal approval of local
bodies/UWSSCs before taking over a scheme
from the UJN or UWSSCs.
Provide technical support in the design of
SVS being implemented by PRIs.
Manage schemes in coordination and close
consultation with the UWSSCs.
Take up schemes for O&M if community
requests.
Address citizen’s grievance with respect to
new water connections/regular supply and
operation of sewerage networks/systems.
39
Agency Role in Water Supply, Sanitation, and
Sewage Role in Environmental Issues Role in Social Issues
short training in microbiology. Not all
laboratories have microbiologists.
SWAJAL PMUa Work as a DIA through its district units for
RWSS of the GoI and state government
Nodal Agency for SBM-G
Coordinating and monitoring project
implementation
Coordinating and monitoring water quality
and regularly monitoring water quality
across the state through the UWSSCs and
District Program Management Units
(DPMUs).
Reviewing water supply schemes and
environmental sanitation activities design,
construction, supervision, and leak detection
Training and capacity building of village-
level workers, PRIs, NGOs, and state and
district officials among others identified for
the management of RWSS systems.
Supporting NGOs in RWSS and
environmental sanitation
Developing and implementing IEC strategy
for RWSS sector
Planning and executing SVS in rural areas
Undertake training programs for PRIs, rural
water supply, sanitation, and water quality
monitoring and surveillance for user
committees and other key stakeholders.
Undertake the programs for IEC and
capacity building as the Water and
Sanitation Support Organization (WSSO) of
the state under the NRDWP.
Identify source and strengthening needs.
Create capacity and assist communities
monitor and manage water quality.
Support PRIs identify appropriate RWSS
infrastructure design and technology for
each scheme.
Create demand and awareness for
improved services and management of
RWSS services.
Create capacity to ensure systems work
well and reduce concerns of pollution, ill
health, or source degradation.
SWAJAL’s PMU has water quality and
environmental specialists, and there is an
environmental specialist in each district.
They are qualified and trained in
Catchment Area Treatment techniques.
There is a health and hygiene specialist
in every district who shares information
and undertakes communication on
behavioral change pertaining to hygiene,
water, water handling practices, and
vector-borne diseases. Each district team
also has engineers to ensure quality of
engineering activities in the project.
Implement the SWAp for developing
community-led WSS schemes.
Facilitate the selection of vulnerable social
groups, including women in the UWSSCs.
Support participatory planning and
community execution of WSS schemes,
including collection of water tariff from
users.
Capacitate the GP leaders and UWSSC
members on financial management,
execution, and O&M of WSS schemes
through trainings and exposure visits.
Facilitate social audit for monitoring
implementation and access.
Support panchayats in the execution of SVSs
through its district PMUs.
40
Agency Role in Water Supply, Sanitation, and
Sewage Role in Environmental Issues Role in Social Issues
Rural development Provide funds through the District Plan for
WSS schemes, source strengthening, and
surface and groundwater recharge activities,
occasionally developing drinking water
sources in rural areas (hand pumps) using
different funding sources like MGNREGA.
Support source strengthening, recharge,
and management of water resources.
Support capacity creation for the
management of systems.
Ensure universal coverage of socially
vulnerable groups in rural areas with water
supply schemes.
Undertake capacity development of
panchayat functionaries and village
institutions on water and sanitation using the
NRDWP funds.
Urban
development/ULBs
Provide finances for water and sanitation
schemes in urban areas directly to
implementing agencies as well as through
the ULBs.
Implement AMRUT/JNNURM and other
central schemes for developing urban
drinking water supply networks.
Develop City Development Plans and
Master Plans looking at the future
development needs of the city.
Ensure availability of water in the urban
jurisdiction.
Identify WSS concerns and their
management needs, including future
needs of the city.
As appropriate, send demands raised by
ward members and other public
representatives to the UJS and UJN for
WSS.
Monitor and take preventive action to
ensure public health in the urban
jurisdiction.
Manage urban drainage systems.
Implement required urban environment
management actions.
Develop inclusive state action plans and
service-level improvement plans for
universal water and sewerage connectivity.
Assist the UJN/UJS in bottom-up planning
through demand generation for the WSS
schemes from wards/resident welfare
associations for submission to the
municipality.
Assist the UJN/UJS in ensuring availability
of water supply infrastructure to areas to be
included in the municipal areas.
Wherever required, make resources and
common land available for developing WTPs
and outfall for treated water.
DWSM District-level advisory body for providing
sectoral guidance and interagency
coordination on water-sanitation
interventions, mainly sanitation
Give inputs and guidance to preparation of
district AIPs for water sanitation schemes.
Approve budgets for new WSS schemes.
Monitor implementation of annual plans and
of sectoral central/state schemes and
commission third-party monitoring of
Provide overall direction to implement
WSS activities within their jurisdiction.
Ensure appropriate implementation of
water supply and sanitation, including
required source strengthening needs.
Coordinate between various departments
to ensure the smooth implementation of
WSS schemes.
Oversee preparation of sectoral district AIPs
that are inclusive.
Approve funds to the GPs/UWSSCs for new
WSS schemes.
Ensure outreach of water and sanitation
services and schemes to all villages and
habitations of the district, especially remote
areas and pockets inhabited by vulnerable
communities - SCs/ STs.
Address concerns and issues escalated to the
41
Agency Role in Water Supply, Sanitation, and
Sewage Role in Environmental Issues Role in Social Issues
completed WSS schemes. DWSM by the GPs/community.
District Water and
Sanitation
Committee (DWSC)
Key implementing agency at the district on
water and sanitation, mainly sanitation now.
Review and support preparation of district
AIPs for WSS schemes, select DIAs for
implementing schemes approved for the
district, and take steps for capacity building
of communities for managing WSS
schemes.
Finalize the district schedule of rates for the
construction of WSS in the district.
Ensure implementation of WSS schemes
according to the existing ECoPs and
Environmental Management Framework
(EMF).
Assist GPs/PRIs/UWSSCs implement
WSS schemes according to project
guidelines (NRDWP/SWAp).
Identify suitable habitations according to
district AIP for implementing the WSS
schemes in the district.
Undertake selection of NGOs/SOs for
integrating social processes and community
engagement in WSS schemes.
Oversee the work of DIAs and SOs with
regard to overall progress and community
involvement in planning and implementation.
Integrate proposals for new WSS schemes for
submission to the DPC.
Ensure inter-panchayat coordination and
conflict resolution in the MVSs.
Block Development
Committee
Block-level agency for interagency
coordination and approving schemes for
submission to the DWSM and the DPC
Provide inputs and demand for the district
AIPs and monitor the progress of WSS
schemes being implemented in their
development block.
Assist GPs/PRIs/UWSSCs implement
WSS schemes according to project
guidelines (NRDWP/SWAp).
Help resolve conflicts on water usage
and demands.
Assist the UWSSCs and MVSLCs in
general operations and undertake
measures for source sustainability and to
obtain NoCs.
Assist DIAs in increasing the outreach of
water and sanitation services and schemes to
all villages/habitations of their block,
especially remote areas and pockets inhabited
by SC/ST communities.
Oversee the work of DIAs, address
grievances of the GPs/UWSSCs, and ensure
inclusiveness and role of GPs/UWSSCs in
the planning and implementation of WSS
schemes.
Ensure targeting/prioritization of villages
with water quality and scarcity issues while
planning new WSS schemes.
Regional
Development
Authorities
(Mussoorie-
Dehradun/Haridwar)
Work in coordination with
municipalities/PWD for improving basic
services and infrastructure in their
jurisdiction.
Implement regional master plans and ensure
implementation of schemes in coordination
Ensure development of areas under their
jurisdiction, through the implementation
of various programs and schemes and
coordination with other agencies
involved in infrastructure development.
Create and amend appropriate building
Ensure quality of basic service infrastructure
for all habitations in the region.
Provide oversight to the implementation of
all development schemes including those on
housing infrastructure and WSS for the
42
Agency Role in Water Supply, Sanitation, and
Sewage Role in Environmental Issues Role in Social Issues
with other agencies/departments. bylaws to address disaster risks.
Implement master plan.
Address environmental issues and
concern of ecologically fragile areas
within their jurisdiction.
underprivileged.
GP Responsible for the overall development of
the panchayat and all revenue
villages/habitations falling in the GP
Constitute the UWSSC for implementing
single-village WSS schemes and guide them
in their functioning.
Guide material and other procurements for
WSS and provide funds to the UWSSC for
implementation.
Identify village WSS needs and ensure
required systems are in place to address
the needs.
Implement and construct WSS schemes.
Ensure WSS systems’ sustainability and
support any required management
actions.
Implement government, NGO, and
externally aided agency schemes and
programs.
Provide safe and regular drinking water
supply to all residents of the GP.
Pass Gram Sabha resolution demanding new
WSS and willingness of the GP to pay for
O&M and contribution to capital cost
according to scheme norms/guidelines.
Constitute inclusive UWSSCs with
representation from women, vulnerable
communities, and all central and fringe
habitations.
Approve schemes designed/planned by the
UWSSC in the Gram Sabha.
Take up capacity development of the
UWSSC members on different aspects of
WSS.
Provide O&M of all assets located within the
GP, including WSS schemes.
Get beneficiaries identified and plans
prepared for schemes under all 14 subjects
transferred to the GP, including those on
drinking water.
Ensure collective source identification and
design to optimize benefits to all areas
covered by the proposed schemes.
If source is weakening, plan and undertake
works through MGNREGA. Integrated
Watershed Management Programme
43
Agency Role in Water Supply, Sanitation, and
Sewage Role in Environmental Issues Role in Social Issues
(IWMP)/Pradhan Mantri Krishi Sinchayee
Yojana (PMKSY) and other schemes for
augmenting source through recharge
structures.
Undertake periodic social audit on WSS and
resolve GP-level conflicts related to drinking
water.
Nominate those members to MVSLC who
can represent the collective interests of the
village, including those of marginalized
communities.
UWSSCs A statutory sub-committee of the GP under
the State PRI Act, responsible for all WSS-
related interventions in the GP
Central role in planning and design of SVSs
implemented and maintained by other
agencies
Has additional role in implementation and
O&M of schemes implemented by them.
Also undertakes O&M of schemes handed
over to them by the DIAs.
Collection of water tariff/user charge and
taking up of minor repair and maintenance
of schemes/distribution system
Function as village-level UWSSC for the
MVSLC if serviced by an MVS
Undertake the sanitation and water quality
testing, monitoring, and surveillance.
Run and manage WSS schemes under
them.
Assure the quality and availability of
water.
Ensure water quality testing according to
the guidelines of the Water Quality
Monitoring and Surveillance Programme
(WQMSP) component of the NRDWP.
Use the UWSSC bylaws and conduct
water source measurements.
Undertake water quality surveillance for
drinking water sources.
Identify water supply schemes with
reducing yields and mobilize resources
and implement strengthening of source
activities.
Ensure inclusive planning of new WSS
schemes to maximize benefits and outreach;
Address issues like time saving, provision of
stipulated water quantity for all and needs of
residents at the tail end, while planning new
schemes.
Ensure regular availability of water to all in
schemes operated by the UWSSC.
Address water supply related needs of
residents and escalate major concerns to the
block/district agencies.
Ensure coordination with the GP and its
Water Management Committee.
Fix tariff after assessing the communities’
paying capacity and make
alternate/differential payment arrangement
for vulnerable communities. Informally
resolve conflicts and redress grievances of
the community.
Irrigation
Department (Minor
Irrigation)
Provide water from public tube wells (not
used or partially used for irrigation) for
drinking water schemes and manage the
Identify and develop sources for
irrigation, support drinking water
arrangements if required.
Provide water supply sources in areas with
scarcity, especially in peri-urban areas, with
limited water use for irrigation/agriculture
44
Agency Role in Water Supply, Sanitation, and
Sewage Role in Environmental Issues Role in Social Issues
source. In areas with water scarcity, provide
drinking water from existing irrigation bore
wells; occasionally (in some regions) create
water supply infrastructure (bore wells and
overhead tanks [OHTs]) linked to existing
irrigation wells and handing it over to the
UJS for operation.
Monitor yield of sources under their
jurisdiction.
but high drinking water demand.
Uttarakhand
Academy of
Administration
Key Resource Centre and state’s Apex
Training Institute - State-level Training
Institute (SLTI) - social and management on
community-led WSS schemes.
Build capacities of program managers,
master trainers/resource persons (Training
of Trainers) and other stakeholders on
various aspects of WSS, including
sustainability and community-oriented
O&M; develop training content on different
aspects of community management and
monitoring of WSS schemes.
Undertake capacity building under the
NRDWP and other externally aided
projects for WSS.
Training of staff of NGOs/SOs on
community-focused WSS schemes
Organize exposure visits for the UWSSCs to
successfully managed schemes.
Training of engineers of the UJS/UJN on
social components and embedding social
issues/participation in planning and
implementation of schemes.
Undertake research studies on issues of
access and inclusion in WSS schemes.
IIT Roorkee SLTI Technical Create, organize, and undertake training
and capacity building for various actors
involved to ensure appropriate
implementation of WSS schemes.
Impart trainings on the technical aspects
of WSS including design, feasibility,
monitoring, source-centered catchment
area protection works, and water quality
testing.
Undertake water quality monitoring
activities as required.
Orient the engineering staff of the DIAs on
project principles and community monitoring
approaches.
Note: a. The SWAJAL Pathshala conceived as a state-level nodal training agency for WSS is in the process of being operationalized and will start functioning
soon.
45
Environment-specific Departments and Agencies
Certain departments and agencies that specifically work on environment-related activities and would be relevant for activities as
identified under the planned program are listed here. Alongside, their specific role that could be important for various activities
envisaged, depending upon activities and location, is briefly discussed here.
Agency Overall Mandate Relevance to WSS
Forest Department Manage the state’s forests and biodiversity, including the
management of PAs.
Supervise and manage all work undertaken on forest lands.
Ensure protection of forests under their jurisdiction.
Support execution of the forest-related regulations.
Give permission for any activity that may involve working in or
passing through/accessing areas under their management and
protection.
Supervise and manage any activities to be undertaken in areas
under their supervision.
Provide Environmental Clearance under EPA 1986 for eco-
sensitive areas in PAs.
Uttarakhand
Environmental
Protection and
Pollution Control
Board
Implement and enforce pollution, waste, hazardous chemical,
batteries, plastics, and public liability insurance legislations.
Give consent and collect cess for discharges from activities such as
wastewater and effluent.
Monitor water quality.
Advise the state government on pollution management.
Identify standards for sewage and trade effluent treatment and their
discharge.
Develop standards for any activity under the various emission
and pollution abatement laws and undertake inspections to
ensure compliance to standards.
Give permission for and take required fee for discharge of
treated sewage from STPs.
National Board of
Wildlife and State
Wildlife Board
Identify wildlife needs in the area - as an advisory body to develop
policy and appropriate conservation requirements.
Conserve and promote wildlife.
Review all wildlife-related matters concerning wildlife and PAs.
Give permission and ensure any work carried out in eco-sensitive
areas is appropriate to the area.
Give permission for work in eco-sensitive areas, where the
Environmental Clearance is required or according to the
guidelines of the eco-sensitive zone there may be a need for
clearances for specific activities.
Provide advice in areas with possible wildlife conflict where
there is likelihood of wildlife concerns.
46
Social-specific Departments and Agencies
There are some agencies that work on social development and empowerment of the panchayats and vulnerable communities and also
provide funds for WSS schemes benefiting these social groups. Such agencies that provide direction and support for social
development and inclusion and address other social concerns in the state are briefly outlined.
Institution Overall Mandate Related to WSS
Panchayati Raja Provide resources for the management of panchayat
assets, including drinking water supply schemes.
Officials of the UJS and UJN are to be under the
administrative control of the ZP. Elected leaders are to
seek technical advice from the UJS/UJN on WSS-related
issues of the district.
Provide approval to schemes to be implemented in the jurisdiction of the
respective panchayat tiers.
Evaluate the repair works on existing schemes and physical inspection of
schemes under execution to ensure quality.
Identify the need for MVSs and submit proposal/demand to the
government/concerned officer.
Ensure that the UWSSCs constituted under the State PRI Act have a central
role in the execution and O&M of WSS in the GP.
Social welfare Work for the welfare and provisioning of basic services
for socially excluded groups - mainly SCs and STs.
Provide resources to the DDW under the SCP and TSP for implementing
WSS schemes in habitations/regions with substantial SC and ST population.
Periodically review the expenditure of funds and its impact on the SC-ST
habitations for which the funds were provided to the line agencies of the
state.
Note: a. According to GO No. 2121/29/04-2/2004 dated August 17, 2004.
47
Other Departments and Agencies
Apart from these, there are also a number of other agencies that directly or indirectly also
support water supply, sewage, and sanitation in Uttarakhand. This section briefly looks at them.
(a) Disaster Mitigation and Management Centre. It is an autonomous institute under
the Department of Disaster Management of the state government. It aims to protect
the community and the environment from the impacts of disasters. It supports
through the identification of disaster prevention and mitigation measures and
disaster preparedness and response plans, including development of State- and
District-level Disaster Management Plans. It also identifies disaster and climatic
vulnerability prone regions and communities for the development of plans and
programs to reduce vulnerabilities to identified disasters.
(b) Watershed Management Directorate. The directorate works on the management
of degraded and rain-fed areas though an integrated natural resource management
approach. While focused on the livelihood and poverty alleviation actions, it
undertakes watershed management activities that have an overall impact on the
availability of water resources and resource sustainability in identified watersheds,
leading to source strengthening in several cases as a positive spin-off.
(c) Irrigation Department. This department undertakes investigation, planning, and
designing of water resources and hydropower development projects. It also
undertakes investigation and development of minor irrigation systems, some of
which, like the tube wells in Haldwani region, are also used for the provision of
domestic water supply.
(d) Department of Family Health and Family Welfare. This department implements
a number of health and family welfare programs and includes the Integrated Disease
Surveillance Programme (IDSP), National Vector Borne Disease Control
Programme (NVBDC), and the National Health Mission (NHM). Of these, the IDSP
and NVBDC monitor health parameters that are directly linked to the availability of
good water supply, sewage, drainage, and sanitation services and water handling.
The Accredited Social Health Activist (ASHA) recruited under NHM is a key link to
public health services in rural areas. ASHAs have been trained in and are
responsible in Uttarakhand for periodic monitoring of water quality for domestic
water supply schemes at the village level and for the identification of sanitation
coverage in villages under their jurisdiction.
(e) Town and Country Planning. It is involved with the preparation of long-term
regional, urban, and zonal plans for development areas, regulated areas, and Special
Area Development Authorities (SADA), including their master plans and bylaws. It
also assists the state government formulate policies for urban areas and provide
technical assistance to implementing and monitoring agencies, as required.
48
(f) NLRSDA. The authority is the regional body responsible for the preparation of
master plan and implementation of building bylaws; provision of housing, roads,
and bridges; slum development; and poverty alleviation. Under its jurisdiction is the
Nainital Lake Conservation Project, which is for the lakes of Nainital, Bhimtal,
Naukuchia Taal, Sattal, and Khurpatal. The activities under this project include
catchment management and conservation, lake water quality improvement, and
water quality monitoring.
(g) Department of Tourism. The department is focused in promoting tourism and
improving infrastructure for tourism development. As a part of these activities, it
provides temporary WSS services for pilgrims. This is mainly limited to the yatra
route and the pilgrims in and around Haridwar and Rishikesh.
(h) Bhagarati River Valley Development Authority. The mandate of the authority is
to maintain the ecological balance, provide environment protection, ensure
sustainable development, undertake required disaster management actions, and
establish mechanisms to redress public grievances. The jurisdiction of this authority
is upstream of the urban and peri-urban areas of Mussoorie-Dehradun, though the
actions for the management of natural resources are likely to affect the availability
and quality of water resources that may be used under the project.
(i) National Ganga River Basin Authority (NGRBA). Its mandate is to prepare and
implement the Ganga River Basin Management Plan (GRBMP). This plan aims at
maintaining environmental flows of the whole of the Ganga river system, assuring
the system’s quality while also considering sustainable development for the entire
river basin. To protect the river basin system, the National River Ganga Basin
Management Act, 2012 has been enacted that defines what can or cannot be done in
the basin area.
(j) Water quality monitoring agencies. This apart, water quality monitoring activities
are carried out by a network of laboratories that belong to a number of different
agencies. Apart from the UJS laboratories, this includes G. B. Pant National Institute
of Himalayan Environment and Sustainable Development (GBPIHED), Defence
Research and Development Organization (DRDO), Pollution Control Research
Institute of Bharat Heavy Electricals Limited (BHEL), IIT Roorkee, and some
NGOs like People Science Institute and Society of Pollution and Environmental
Conservation Scientists (SPECS) in Dehradun. FICCI also supports the UJS with
water quality monitoring by supporting the day-to-day running of the UJS
laboratories.
(k) Kumaon and Garhwal Mandal Vikas Nigam. Autonomous bodies under the state
government, both these agencies are responsible for the development of their
respective regions/divisions, which includes creating of employment opportunities,
promotion of tourism, and sustainable community development. Under their work
for promotion and strengthening of tourism infrastructure, these corporations also
49
engage in the improvement of water bodies, for example, Kumaon Mandal Vikas
Nigam (KMVN) is implementing a lake-aeration project in Naukuchia Taal in
Nainital District.
(l) Ministry of Water Resources, River Development and Ganga Rejuvenation.
Though originally mandated to work on surface and groundwater management for
the Ganga rejuvenation, the ministry works through the Namami Gange Programme
on the issue of water quality improvement and monitoring and support to states for
the creation of sewerage infrastructure in the Ganga Basin.
50
Chapter 5: System Assessment - Capacity and Performance
This section provides an analysis of the program capacity and performance from the perspective
of what is mandated and how these institutions and legal instruments are at play during
implementation. It examines the effectiveness of implementation—of legal and regulatory
provisions, mandated versus actual roles performed by different institutions responsible for
drinking water supply and sanitation, and operationalization of related programs and schemes—
from an environmental and social perspective.
This analysis is informed by a review of available literature, wide ranging consultations and
discussions with different sets of stakeholders (government, civil society, elected representatives,
and community members), field observations, and validation of the information collected from
different sources. The final analysis is based on the team’s professional and objective judgment
and understanding.
Environment Assessment
The three major agencies involved in WSS in Uttarakhand are the UJN, UJS, and SWAJAL.
Therefore, this section specifically looks at their performance to implement environment-related
actions of relevance to the planned program.
Environmental Safeguard Implementation by the UJN
Most of the UJN’s safeguards implementation is during planning and developing Detailed
Project Reports (DPRs) and overseeing construction. The UJN engineers receive SLTI training,
some of which is relevant for improving their understanding of environmental issues. Issues of
relevance to implement safeguards under the planned program include source sustainability,
technical and financial feasibility, water quality testing, monitoring and surveillance,
management of water quality data and sanitary surveys, and use of field test kits (FTKs).
Because of this training, planning, and management of construction activities, the engineers of
the UJN are aware of the environmental requirements with regard to source sustainability and
source protection, water quality, and catchment management. Also, because they have used
ECoPs and screening formats for erosion control, estimation of vegetative cover, water quality
risk assessment, and needs assessment developed for the SWAp, they understand major
environmental concerns arising while developing WSS projects. According to the UJN, since the
SWAp was adopted, these formats and ECoPs were used for all their projects.
For MVSs under the UJN implementation, DIAs were used to mobilize the support and
coordination of other key stakeholders and agencies, including departments like the irrigation,
PWD, health, forest, watershed management, and rural development. As a part of its regular
designing and execution activities, the UJN interacts with the Forest Department and the SPCB
to take permission for activities in the Forest Department land and for effluent discharge. Hence,
it is aware of these regulations and their implementation needs.
However, there are some implementation challenges. As noted in the field, population
estimations are usually done on district averages instead of actual growth rates, which are much
51
higher, resulting in the need for the augmentation of resources and multiple projects. Also, while
the UJN is aware of and interacts with state-level environment departments for various permits,
this is limited to only a few regulations. Field discussions suggested there was inadequate
understanding of regulations, with no knowledge on eco-sensitive zones and limited
understanding of the NRGBM Bill 2012 despite working within the purview of these two
regulations on various projects. Similarly, there were no discussions on any of the recent waste
management regulations.
Where the UJN hires contractors for construction activities, the contracts include clauses for the
Occupational and Health Safety (OHS) and safe management of construction sites, such as waste
management, erosion control, and ensuring safety of sites. However, site management by
construction contractors does not necessarily show these clauses are followed. Therefore,
implementation supervision is clearly inadequate and would need strengthening. Furthermore,
now that new regulations on the management of construction and demolition waste have been
enacted, this also needs to be included in construction contracts.
Environmental Safeguard Implementation by the UJS
As a part of its SVS activities under the SWAp, the UJS used ECoPs to ensure source
sustainability, manage water quality, and assure chlorination. Because of the training through
SLTIs, the field officers understand water source yield measurement, catchment delineation,
catchment area treatment planning and management, and strengthening of village environmental
action plans for sanitation and waste management. Through the involvement with SVSs under
the SWAp, the UJS has also worked through multi-agency entities, the DIAs, and included
departments like the irrigation, PWD, health, and forest. Therefore, the agency has knowledge on
environmental safeguard issues to be incorporated in the project design and uses its knowledge
while interacting with the Forest Department.
The UJS, given its role in running WSS schemes, water quality monitoring, and involvement in
the SWAp project, understands water quality issues. This includes water quality testing,
surveillance, and monitoring and analysis of water quality data, which is also uploaded on the
NRDWP website. Overall, while the UJS engineers are in charge of ensuring chlorination before
distribution, regular chlorination seemed to be an issue in small water pumping and distribution
systems of the UJS, as seen in Haridwar and Srinagar where water was chlorinated at the pump
house before distribution. This is likely because of the limited capacity of the operators as
discussion of these systems seemed to highlight in Haridwar, where the operator was unaware of
the problem. Therefore, some aspects of day-to-day running of systems, especially where there
may not be regular oversight by the UJN engineers, the capacity to run and manage systems, may
be limited.
For improving monitoring and understanding spatial context and linkages of disease hot spots
and WSS issues, geospatial monitoring will be particularly useful for quick and effective
response, which is presently not a part of the UJS activities of capacities and presently does not
exist.
52
Actions toward Environmental Responsiveness in the Departments
Two areas where the UJS and the UJN have shown innovative actions have been in source
management and improvement and energy management. To improve water availability and
respond to changing water levels and possible changes in steam discharge, they have developed
the river bank filtration method. The departments’ innovation to deal with source tapping
mechanism has resulted in the development of the Uttarakhand Koop, which reduces filtration
costs and can be set up on small rivulets, while addressing issues of the changing course of
Himalayan streams; the characteristic streams in Uttarakhand. Also, the UJS has been using its
old wells and dried/abandoned hand pumps to recharge aquifers. Rainwater harvesting (RWH)
has also been taken up with some systems to recharge the sources.
With regard to energy management, some areas are presently being designed with solar pumps,
reducing dependence on the grid and also being less expensive to run. Equally, as seen in
Haldwani, a WTP built in 1962 used the energy from the moving water in the WTP itself to
supplement the energy needs of the WTP’s aerator, reducing an estimated 5 kW energy need.
Environmental Safeguard Implementation by SWAJAL
SWAJAL has been involved in the implementation of the World Bank-supported RWSS project
from the beginning. It has the capacity to identify, plan, manage, supervise, and train on various
aspects of environmental management. It has a good understanding and strong capacity for the
management of RWSS schemes and identifying environmental concerns typical of RWSS, such
as source protection and point-of-use water quality handling. It has also undertaken
communication activities on hygiene, water handling, and vector-borne diseases. SWAJAL is
expected to continue to be a part of the planned program and is to be involved with capacity
building activities.
Implementation Systems, Procedures, and Regulations
Water for domestic consumption in Uttarakhand is sourced from both surface water and
groundwater sources. Surface water sources mainly include springs, rivers, and rivulets
(gadheras), and in some cases, lakes. All water sources are to be tested for quality before
finalizing a site/water point, and groundwater sources are also to undergo yield and quality tests.
In peri-urban areas, most of the water is sourced from groundwater, with limited number of
surface water sources also used. Water supply systems are constructed by the UJN and are to be
handed over for O&M to the UJS, while simple single-village systems may be handed over to the
PRIs. Under the SWAp, all systems constructed and managed were supposed to follow ECoPs
developed as a part of the EMF of the project and include their use in the DPR in the
construction phase and during O&M.20 Systems under the SWAp also included a number of
community-managed systems, where after the community’s capacity was created by SWAJAL
and the UJS, they were involved in project conceptualization, planning, and construction, and
20 ECoPs exist for source identification, source sustainability and protection, groundwater source protection and
sustainability, water quality monitoring, safe sanitation technologies, safe sullage disposal, safe solid waste
management, and location of community toilets.
53
postconstruction management. RWH is also considered to supplement water supply in some
areas.
Strengths and Benefits
(a) The single biggest benefit of this Program is the improved and reliable availability
of potable water to residents in the program’s peri-urban areas. Peri-urban areas are
presently identified as, and provided water supply services for, rural areas. However,
they are increasingly reflecting urban lifestyles, resulting in an increased demand for
household water. This Program will be therefore catering to these needs. The World
Bank has been involved in the WSS projects in the state previously, resulting in an
understanding of the World Bank-required environmental safeguards needs,
including a number of ECoPs, to address issues like source sustainability and source
protection for ground and surface water sustainability and quality. Of these, the
ECoP on water source identification lists critieria for selection of appropriate water
sources for drinking water supply, that include identification of discharge, safe
yields and competing needs, and water quality. It discusses these criteria for both
spring and stream sources. The ECoP on surface water source protection and
sustainability identifies criteria and measures to ensure sustainability of use through
measuring lean period supply and providing water for the ecology and recharge
measures. The groundwater source protection and sustainability identifies ways to
reduce contamination of the source, and sustainability though catchment
management actions like grazing management, organic farming and crop
management, check dams and other erosion management actions, and recharge
action. There is also a six-monthly monitoring of sources undertaken for both quality
and sustainability along with measures identified to manage any issues identified.
These ECoPs and monitoring format of the project is available in Annex 7, 8 and 9.
(b) SWAJAL, which has been involved in the implementation process of the WSS
projects previously, both has the capacity and supports capacity creation for
sustainability and system management. It also has an understanding of typical water
quality, health, and source management issues. They will continue to be involved
through the SWAJAL Patshala, will undertake capacity building under the project.
(c) The state has developed temporary water supply pipelines linked to tankers that
cater to religious tourism, most of which is concentrated in a few weeks resulting in
very large congregations, sometimes a few lakh people in a single day, in response
to this demand.21
(d) There is a well-established system of laboratories in the state, which test water
quality at the time of source identification and run systems test for residual chlorine
and water quality regularly. FTKs distributed by SWAJAL, after training and
21 http://www.tribuneindia.com/news/uttarakhand/governance/preparations-afoot-in-haridwar-for-kanwar-mela-in-
august/91778.html accessed July 8, 2016.
54
handholding, are used for the WQMSP component of the NRDWP and also by
communities to monitor drinking water quality themselves.
(e) Water supply system designs try and ensure quality levels and the supply of potable
water through the use of sodium hypochlorite, used to disinfect water before
distribution in all systems. Monitoring for residual chlorine and to check for the
quality of water is regularly done through the UJS laboratories.
Gaps and Challenges
(a) Although, ECoPs and other guidance exist for source yield testing, strengthening,
and monitoring, the actual implementation of existing environmental guidance is
inadequate. Actual addressing of environmental issues is overall limited to existing
jurisdiction, knowledge, priority, and understanding. Discussions of project
implementation suggest ensuring source sustainability, and catchment management
remains a challenge, some of which were because of the constrains of being able to
work in Forest Department lands and the source catchments. Post construction, the
focus on source monitoring and management was variable, and there was
insufficient guidance in place to address the issue, resulting in attention mainly paid
to day-to-day running and distribution. Also, monitoring for unaccounted water and
leakages and water wastage did not get adequate attention as compared to water
distribution, especially in community-managed systems. Therefore, given that, in the
peri-urban areas, there is larger dependence on groundwater sources, this issue needs
to get greater attention as discussions with both the UJS and the UJN officials in the
state suggest.
(b) There is a need for greater capacity and systematic management of existing systems.
According to a report of Asian Engineering Consulting engineers, systematic
chlorination of water supplied is not taking place in many of the schemes visited.
Another study by Ernst and Young suggests that only 3 percent of schemes surveyed
did irregular chlorination. While this was a greater problem in the community-
managed schemes, it was also noted in the UJS-run Haridwar and Srinagar schemes.
The final Environment Audit Report of the RWSS project undertaken in 2015
mentions that water quality tests showed the presence of e-coli in water samples of
many gadheras and spring sources in both Nainital and Dehradun districts.
Similarly, according to the SWSM information, 28 of 39,209 habitations are quality
affected.22 This indicates the need to be aware of and to address water quality issues.
Furthermore, the community perceives local gadheras to be of good quality, being a
traditional source. This shows a need for better awareness and understanding of
water quality among the local population to assure the management of source and
systems. Surveys of 2015 show the existence of diarrheal diseases and dysentery in
the identified program districts, with about 4 percent to 5 percent of the population
22 Asian Engineering Consulting Pvt Ltd, India, December 2015; Ernst and Young. 2015. Environmental Audit
Report for Uttarakhand Rural Water Supply and Sanitation Project in Uttarakhand; Sustainability Evaluation
Exercise.
55
reporting diarrheal diseases. About 6 percent to 10 percent of children are reported
to suffer from acute diarrhea.23 However, the actual percentage of population
suffering may be much higher as this statistic is only for acute disease cases, and
diarrhea is usually highly underreported.
(c) There are also issues of inadequate management of schemes, chlorination and
treatment, O&M, and leakages. Discussions in Village Srikote of Srinagar suggested
that about 50 percent of households installed home-level reverse osmosis systems
because the water provided was turbid, especially during the rainy season, incurring
additional expenses to secure the quality of their drinking water.
(d) Although there are a number of regulations to manage water quality and address
pollution, there are regulatory challenges to manage water quality. Further, a number
of possible water sources may be unavailable as potable water sources. Uttarakhand
SPCB’s data suggest that surface water quality of the planned program area is not
uniformly usable. Regular testing is done for 16 stations at Dehradun, Rishikesh,
Haridwar, Nainital, and Udham Singh Nagar in the Ganga Basin. Of these, only five
stations were classified as Category A or B, and hence possible to use after
conventional treatment. The rest ranged between Category D and E.24 This includes
Bhimtal and Nainital lakes, both of which are Category E. River Gaula, which is
used to supply some water to Haldwani town and its peri-urban areas, is also
classified as Category E. This creates a risk of drinking poor quality water and
suffering from waterborne diseases, among others.
(e) The major agencies implementing the WSS programs in the state do not use
geospatial information, which is important to understand geo-hydrology for resource
augmentation, source identification, source sustainability, source protection, and
catchment management.
(f) Postproject construction and system management may require further focus on
disaster and postdisaster management, while many systems suffered from leaks—
such as in Haldwani. In some cases, like the intake wells run by the UJS at
Haridwar, because of their location along the river bed, the wells were also affected
by the 2013 disaster.
(g) A newer dimension and challenge of working in peri-urban areas is rapid
urbanization coupled with climatic factors. Increased urbanization and
concretization, and the associated urban sprawl of the source’s catchment, and an
increase in the peri-urban population results in a rising demand for the WSS
services. In Bhuvan’s geospatial data analysis, rapid urbanization of peri-urban and
urban areas and increased population density are seen in the belts of Haldwani-
Kathgodam, Dehradun, and Haridwar. This analysis compares data between 1991
23 GoI, n.d. Annual Health Survey 2011–12 Factsheet: Uttarakhand. Vital Statistic Division, Office of the Register
General and Census Commissioner, New Delhi, India. 24 http://ueppcb.uk.gov.in/ accessed April 7, 2016.
56
and 2014 (annex 11). Similarly, studies on Nainital and Haridwar show rapid
increase in population and settlements, with an increase by about 50 percent of the
built-up area in the municipal council area of Nainital.25 Also, as seen in Haridwar,
there is a tendency toward urban sprawl and disbursed development with a majority
of the development along the highways, in urban fringes and city peripheral
agricultural areas than in the city center.26 These changes and their impact on the
recharge ability of aquifers, may require further studies to understand actual changes
likely. Further challenges exist in some areas, such as peri-urban areas of Nainital
and the surrounding areas, where migration from other parts of the country and an
increase in tourism results in competition for resources.
(h) Climate change is also likely to result in further pressure to limited water resources.
The Uttarakhand Action Plan on Climate Change (UAPCC) suggests that overall
there is likely to be an increase in the rainfall in the Himalayan region and in
extreme rain events. However, local variations may exist, as noted in Almora with
decreasing rainfall. Also change in rainfall peak from July to August will create
longer dry seasons and longer peaking demands. Glacier retreat could reduce water
in the rivers on a longer-time scale and may also affect aquifers in some areas. Also
predicted is the reduction in winter rains. On the other hand, there may be an overall
increase in temperature in the state, though with local variations. In case of
Pantnagar, the night temperature may increase with a slight reduction in daytime
temperatures, and similar trends may also be seen in Haldwani, Udham Singh Nagar,
and Rishikesh. In the Lesser Himalayas—such as Almora—the temperatures seem to
be increasing.27 Therefore, there are likely to be seasonal changes in water
availability, variations in demand with temperature variations, and an increased
sediment load where rainfall increases, with fragile ecosystems and catchment
degradation, and also increase in disaster risk. There will also be a need to look at
climate change and the impacts of climate change, urbanization, and higher
dependence on groundwater, which will lead to a number of challenges. These may
include (i) resource sustainability, (ii) demand increase, and (iii) possible increase of
extreme events and disasters. Present infrastructure management actions, however,
mainly focus on basic yield and catchment concerns and water quality management.
More complex issues of (i) disaster and extreme events, (ii) climate change impact,
(iii) challenges of urbanization, and (iv) decrease in recharge are likely to require
greater attention, to ensure long-term sustainability of infrastructure. Furthermore,
with increased sediment loads, the need and cost for infrastructure maintenance and
better water treatment may also increase, through the need for greater maintenance
and repair costs.
25 https://ugecviewpoints.wordpress.com/2016/03/29/rapid-urban-growth-in-mountainous-regions-the-case-of-
nainital-india/ accessed July 5, 2016. 26 Jha, Ramakar and VP Singh. 2008. “Analysis of Urban Development of Haridwar India Using Entropy
Approach.” KSCE Journal of Civil Engineering, June 2008. https://www.researchgate.net/publication/225801960_. 27 GoUK. 2014. Uttarakhand Action Plan on Climate Change: Transforming Crisis into Opportunity.
57
(i) Most of the water supply in the peri-urban areas is likely to be from the groundwater
sources. Presently, according to the Central Ground Water Board, the identified peri-
urban areas do not have any dark zones,28 and therefore, are safe for water
abstraction. However, given the concerns of catchment degradation, urbanization,
and climate change, and increasing population and rising water demand, there could
be a risk of groundwater depletion and competition for limited resources among
users on a longer horizon.
(j) Health statistics suggests the existence of a number of vector diseases prevalent in
the state. These include malaria, Japanese encephalitis, acute encephalitis syndrome
(AES), dengue, and chikungunya. A few Kala-azar cases were also reported in
Uttarakhand, though of the four years’ data available, the highest number was in
2012 and a total of seven cases were reported.29 The combination of urbanization
and hard surfaces, increasing temperatures along with increasing water consumption,
use of individual household latrines (IHHLs), and inadequate sewage and drainage
may also result in increased runoff and waterlogging and urban flooding, and a rise
in vector diseases. AES may also be caused by drinking contaminated water, a risk
from poor sanitation. This may also be related to poorly managed waste, poorly
constructed IHHLs, or poor septage disposal. Furthermore, poorly designed and
managed RWH systems, which may be used to augment sources, may increase the
risk of vector diseases and also result in cyanobacteria in RWH tanks and its
associated health risks.
(k) Household water usage in peri-urban areas varies; while some users only use it for
basic domestic needs like drinking and cleaning, others may use it for their milch
cattle or irrigation of large gardens. Also, some peri-urban houses have multiple
families living in a single house unit, and this has been highlighted in discussions in
Haldwani. The existing infrastructure planning does not cater to these different
needs and demands, requiring reinvestment for source augmentation and extension
of schemes. On the other hand, there is a flat rate at which all users are charged,
even though in some areas meters have been installed for all water connections.
Therefore, even though the usage may differ vastly, everybody pays the same
amount, and there is no incentive to reduce water usage or wastage. This increases
both the running cost of the system and reduces money available for O&M, even
when there seem to be inadequate funds, more so for community-run systems.
(l) There are multiple agencies and inherent complexities in the program area, further
exacerbated by the existence of PAs and eco-sensitive zones. The departments are
familiar with some challenges such as permits for water sources in forests. However,
the UJS and the UJN are less familiar with other challenges such as working in eco-
sensitive areas. Other regulatory areas likely to be relevant, and presently
28 http://cgwb.gov.in/gw_profiles/Uttarakhand.html. 29 GoI, 2014–15. National Vector Borne Disease Control Program: Annual Report 2014–15. GoI, Ministry of Health
and Family Welfare. Delhi, India.
58
inadequately addressed, are on waste management; some were recently enacted,
such as construction and demolition waste, battery and e-waste, and municipal solid
waste. They require specific handling and disposal of waste, such as the disposal of
batteries from power backup systems and other electronic equipment that may be
used in the WTPs should not be disposed in general auctions with other department
equipment and waste. The Wetland (Conservation and Management) Rules 2010
may also become relevant in the catchment of wetlands in case water withdrawal
and impounding of water changes the wetland ecosystem, and this will require state
permission. However, it is unlikely that a single water supply project in itself will
result in such an impact, though as a cumulative impact of various projects and other
development activities such an impact may take place. Also, in some cases there
may be a need to work with a number of different agencies for permits under
different regulations, increasing complexities. Without adequate information and
knowledge, these issues become hurdles in implementation because design
requirements and permits may take time and result in delays in project
implementation.
(m) According to discussions in the field, the state government has asked all minor
irrigation tube well systems to also be developed for drinking water purposes,
including the construction of an OHT and pumping house. However, there is no
design criteria identified, other than the need to build the OHT to the height of 20 m.
This may result in inadequate head to supply water to all on the system. Equally,
many of these tube wells are likely to be placed for the convenience of their intended
use, which is agriculture, and may be surrounded by farm land. Unless organic
agriculture is practiced in the area, there is likely to be agrochemical contamination
in the water.
(n) Presently, there is no waste management system available at the WTPs to deal with
specific types of waste, such as disposal of sludge from backwash, empty containers,
waste oils, batteries and any electornic parts that might be in use. Therefore, there is
still a need to address this issue as most of this waste is disposed with other waste
from the WTP. Some of the project area may come under eco-sensitive zones, and
therefore there will be some animal movement and need to ensure that there is
minimal disturbance to wildlife. However, as the planned infrastructure will be
limited to areas of a maximum of 10*10 mts, and within existing government
compounds of the UJS/UJN or other government lands with no landscaping
expected, and also not forested areas of PA, there is unlikely to be concerns of alien
species. Hence, there will be a need to pay some attention to concerns of animal
movement both for the safety and minimizing disturbance to wildlife, and to ensure
that there is no problem for construction labour.
59
Opportunities
This project presents a number of opportunities for greater responsiveness to environmental
needs, while also improving the existing water supply in peri-urban areas. These include the
following:
(a) Further capacity enhancement for sustainability and system management to support
and improve implementation of environment safeguards. It is planned that ECoPs
developed in the previous project will continue to be used. Given the new challenges
because of the changing nature of the project, further guidance such as checklists
and screening systems for the identification of environmental issues and regulations
during design and postconstruction management may need to be developed. This
could include guidance notes and other supporting information, such as for River
Ganga Basin, for working near PAs and in eco-sensitive zones and areas, and for
waste and construction management. This will help improve compliance to existing
regulations and strengthen the project design.
(b) While planning, using climate change data and impacts of urbanization on
groundwater systems along with improved population estimation, to the maximum
extent possible in designing projects, is another possibility. This would make the
planning system more robust. This could be coupled with groundwater monitoring
for both changing water tables and aquifer quality.
(c) Development of an audit mechanism that revisits schemes and examines how
projects fare after a few years of handing over to understand their management and
resource concerns; and develop appropriate management plans and systems for both
future work and for existing plans and systems.
(d) Metering, demand management and awareness, rationalization of water use for cattle
and urban garden and agriculture, and incentives to use water-saving devices for
consumers may also be considered. This could support ensuring adequate revenue
for system management and longer-term reduced consumption, and make
infrastructure sustainable.
(e) Linkages with other departments could also be considered to support actions that
could directly or indirectly be affected by activities under this program or affect the
availability of existing resources. This could include the following:
Dialogue with urban and rural local governance systems to create awareness to
develop regulatory mechanisms, guidelines, and awareness programs; and
provide incentives for ensuring minimization of concretization in areas; and
increased green spaces while also creating awareness on waste management, as
an effort toward groundwater recharge.
Development of linkages to other programs, projects, and departments to work
toward improved drainage management.
60
Create linkages with health departments and if an area is being monitored by
the ULBs or other local bodies, then create linkages with them to identify any
health issues, vector-borne or waterborne, and create an appropriate response
system to address the issues.
Further support for catchment management may also exist through the powers
that the Kuman and Garhwal Water (Collection, Retention, and Distribution)
Act of 1975 gives the state government to demarcate PAs that will help protect
water resources. Given the dependence in peri-urban areas on groundwater, this
may be a useful tool to protect aquifers.
Impact Assessment and Management Actions
Positive Impacts
Increased access to high-quality water services in peri-urban areas
Improved service, resulting in access to better quality water available, and no need to supplement from
other sources, which may not be of good quality, or compromising on hygiene and other health uses,
resulting in reduction in morbidity in the population and better health.
Reduction in illegal tapping into the system, reducing the possibility of leakages and contamination of
water in the supply system, the risk of diarrheal diseases to the population, and the need for maintenance.
Good water supply systems resulting in more people dependent on the formal water system instead of
private tubewells and hand pumps, that may result in improved management of aquifer systems as the
government may be able to address recharge and sustainability concerns of aquifers, if so required.
Improved policy, planning, and M&E systems for GoUK’s water supply program for peri-urban areas
Clear perspective on resource use and priorities that support ensuring sustainability and improved
environmental health.
Existing standards and regulations that govern water resources and environmental and natural resources are
in place. Therefore, a framework to support addressing environmental issues exists and can inform WSS
policies, making them more comprehensive.
While prediction of possible climate change concerns in the long run may differ, there is sufficient research
on the subject that can help support identification of resource constraints that may need to be addressed as a
part of policies to ensure long-term vision on WSS.
Existing systems to plan that include environmental issues are in place through ECoPs. Therefore, a
number of required provisions exist on scope and management measures for the WSS infrastructure.
A well-developed plan including environment-related parameters will ensure actual resource availability
and consumer behavior taken into account, with appropriate management actions identified.
A good M&E system will ensure resource degradation issues are identified on time and required
management actions are taken. Improved environmental health will have a positive impact on human health
and well-being.
M&E system already exists on complementary aspects like waterborne and vector diseases, water quality,
and groundwater levels and with appropriate linkages can be used to improve monitoring and resource
availability.
Service delivery institutions are aware of existing systems and technologies and have experience in
implementing WSS systems in urban, rural, and peri-urban areas.
61
Positive Impacts
Well-planned, well-developed, and well-managed systems will improve overall resource health and reduce
environmental degradation.
Robust systems existed in previous World Bank-supported projects, although they were rural and small
projects mainly; some of these areas also come under peri-urban. Therefore, there is some basic
understanding on how to address environmental issues in program implementation and design for WSS,
through the use of ECoPs.
There is knowledge on the creation and management of temporary WSS systems for religious
congregations and fairs, which presently are used in municipal limits of Haridwar-Rishikesh for the Kumbh
Mela. Hence, such system can be used for other similar needs in the peri-urban areas when required.
Possible Adverse Impacts, Concerns, Risks and Management Actions
Improved policy, planning, and M&E systems for GoUK’s water supply program for peri-urban areas
Possible Adverse Impact/Concern/Risk Management Actions
Policy has limited and narrow focus and addresses
water and sanitation not discussing issues of resource
sustainability.
Policy to also discuss issues and need for source
sustainability and the need to monitor sources and
management of source catchments to assure water
availability.
Inadequate use of data and information and capacity
to plan, and thereby not taking into account
resources availability and longer-term sustainability
of project activities.
At time of planning and development of Detailed Project
Report (DPR) all sources to be checked for sustainability,
measure discharge to ensure adequacy of water from source
and identify source catchment and other activities required.
M&E system inadequate, and data quality not
sufficiently robust, resulting in insufficient
monitoring and identification of issues of resource
sustainability and degradation not identified in time,
that may result in infrastructure not being able to
cater to planned population.
Ensure M&E includes monitoring of discharge and water
quality as a part of post construction activities
Insufficient understanding and use of disasters-
related information resulting in infrastructure design
not robust enough withstand any disaster.
Ensure all DPR’s identify possible disasters that might
occur in the planned project area, and make infrastructure
robust to withstand identified disasters.
Plan for WSS systems exists but ancillary systems
such as for drainage not in place, resulting in an
increase in water stagnation, urban flooding, and
diseases.
Create awareness among customers to reduce water wastage
where possible and ensure minimisation of concretization.
Discuss with agencies in-charge of drainage to prioritise
storm water drainage in areas where water supply systems
are being implemented to ensure minimal water stagnation.
While laboratories network exists to test water
quality, not all have adequate resources and therefore
unable to undertake all required tests and assure
water quality.
Monitor water quality testing reports, and laboratories
resources, including human resources to ensure laboratories
are able to function properly.
While the UJS/UJN have their M&E systems, there
are no links within departments and units, resulting
in business-as-usual practices.
Ensure M&E systems are linked to one another and
monitoring takes place comprehensively and any issues
identified are able to be handled promptly.
62
Possible Adverse Impacts, Concerns, Risks and Management Actions
Planned water sources mainly dependent on
groundwater, but in the long run with increasing
demand, competing users, and urbanization impacts,
along with climate change impacts, risk of reduction
in groundwater table, and reduction is services.
To the extent possible, ensure source sustainability and
source protection measures such as catchment treatment and
recharge, and demand management to assure long term
sustainability of source for water supply system.
Focus mainly on design, but not adequate monitoring
of systems during construction leading to weak
enforcement of construction management resulting
in poor standards/enforcement of OHS at
construction and for construction waste management,
resulting in accidents, environmental degradation,
disturbance to local wildlife and noncompliance with
existing regulations.
Ensure that there is monitoring of construction site and
enforcement of required site safety and other measures to
minimise risk of accidents and disturbance to human and
wildlife that may be in the area.
Plan does not review relevant regulations as a part of
the design process, resulting in delays in
implementation as regulatory needs not identified in
time.
Plans and DPRs to identify required regulations, where
permissions required and that might need specific attention,
such as waste related regulations, construction and
demolition waste regulation, and any protected area
regulation that might need specific compliance and permit
needs, and ensure these permissions and actions are
undertaken in time.
Capacity to manage system, in the community and
small systems managed by pump operators,
inadequate. Issues of concern are source
sustainability, quality, pollution, and system day-to-
day management and maintenance.
Ensure training of pump operators and availability of
guidance chart at pumping station in local language for
pump operators for chlorination and basic maintenance of
the area.
Increased access to high-quality water services in peri-urban areas
Consumer behaviour such as poorly designed IHHLs
and inadequate drainage and waterlogging, creating
water pollution and resulting in higher maintenance
costs for the system and resource degradation.
Create awareness on IHHL designs and impact of poorly
designed and manged IHHLs on water quality.
Undertake water quality monitoring to identify areas where
water quality issues might be emerging as a problem
Discuss with agencies in-charge of drainage to prioritise
storm water drainage in areas where water supply systems
are being implemented to ensure minimal water stagnation.
Inadequate attention for RWH design and
management used to supplement water supply with
focus mainly on increasing supply, resulting in a
variety of health problems.
All RWH systems have proper cleaning and management
systems and adequate protection to ensure water quality is
protected, and does not result in becoming a breeding
ground for vectors like mosquitoes.
Poor management of existing systems, resulting in
waste at WTP, sludge from backwash of system and
other waste like containers, batteries etc not properly
disposed.
Identify a proper waste management and disposal system,
and ensure it complies with existing regulations.
Inadequate training or change in pump operators
resulting in poor management, inadequate
chlorination and impacting water quality supplied to
consumers.
Ensure training of pump operators and availability of
guidance chart at pumping station in local language for
pump operators for chlorination and basic maintenance of
the area.
63
Possible Adverse Impacts, Concerns, Risks and Management Actions
During construction, focus mainly on design, but not
adequate monitoring of systems during construction
leading to weak enforcement of construction
management resulting in poor standards/enforcement
of OHS at construction and for construction waste
management, resulting in accidents, environmental
degradation, and noncompliance with existing
regulations. Possible risk of accidents while laying
pipes in densely populated areas, disturbance to
wildlife in eco-sensitive zones, possible breaking of
old sewage pipelines and contamination, electric
shocks from electricity pipelines breakage
Monitoring of construction agency undertaken to ensure
compliance to required regulations and safety norms.
Construction area cordoned off from public and required
notices, lights etc to warn public in place to ensure minimal
possibility of accidents.
Proper scaffolding in place and safety equipment to workers
where working in heights and dangerous areas,
Identification of other utility networks and planning of
activities accordingly to ensure minimal breakages and
damages to any utility.
Ensure first aid easily available at site for workers in case of
accident.
Where wildlife disturbance possible, no working at night or
at times where wildlife movement exists, minimise noise
and other possible risks. Vehicular movement not to take
place at night. Cordon off construction area to minimise risk
of wildlife entering the area.
Poor site management, does not take into account
terrain resulting in erosion and risk to labour
working in hill areas
While working in hilly areas, ensure that required safety is
in place to minimise erosion and risk to labour.
Sources identified in PAs, resulting in a disturbance
to species in the PA during construction and regular
management of system.
Where possible avoid identification of source in PAs.
However, where not possible ensure all work is done in day
time, with minimal noise and use of minimal noise creating
drills etc.
Keep the area fenced off to minimise possible entry and
accident due to animal movement.
No work or movement to be undertaken at night time.
Look at increased access by larger number of sources
and pipeline laying, but inadequate attention to
resource management which in turn results in
catchment and source degradation and reduced
yields.
Monitor source and catchment and to the extent possible
undertake catchment treatment and management.
Protect sources from contamination and degradation.
Social Assessment
Implementation of Legal and Regulatory Provisions
The national legal framework provides adequate legal social protection related to drinking water
supply and sanitation.
Strengths and Benefits
(a) While the National Water Policy provides an overarching framework for providing
access to all by considering the specific needs of socially excluded communities,
much of the action is desired at the state level. The national flagship schemes like
the NRDWP and the SBM-G are aligned to this policy, and the new NRDWP
guidelines talk of providing household-level water security, as against the earlier
64
approach that was based on providing access at the habitation level and did not look
at intra-habitation disparities in allocation and access.
(b) The state provides a supportive policy environment for public grievance redress and
legally providing access to basic services including new drinking water connection
under the Uttarakhand Right to Services Act 2011. The act provides new water and
sewage connection within a time frame subject to technical feasibility. Since the UJS
has been made the nodal agency for provisioning new connections, the agency’s
elaborate online grievance redress systems provide space to citizens for registering
and addressing complaints related to delay in new water and sewage connections.30
Gaps and Challenges
(a) For a state like Uttarakhand, where more than 65 percent of the geographical area is
under reserved forest, and where a large population practices transhumance,
applicability of the FRA cannot be underestimated. For rural/peri-urban villages
with some habitations falling inside the forest boundary, access to water supply
scheme can only be facilitated under this act. Performance of the state on
implementation of the act per se and Community Forest Rights (CFRs) has been
poor,31 and the number of community claims filed for creating water supply seem to
be very few (for example, Disvanee Malli Water Supply scheme in Dumakot block,
Pauri District).32
(b) The state has an elaborate legal regulatory framework on water supply and sewerage
management as described in the previous section. However, there are challenges
when these legal enactments get implemented on the ground. The UJN and the UJS
mandated to work on mutually exclusive mandates, of planning/execution and O&M
of WSS schemes, respectively, have gradually entered each other’s turf, new
institutions have come up, or other institutions have started working in the WSS
sector. Thus, multiplicity of institutions working on WSS, overlapping
mandates/roles, poor accountability, limited ground-level coordination among
agencies, and low involvement of local bodies sometimes lead to implementation
gaps, less community ownership, and suboptimal performance of schemes.
Similarly, while the UJS bylaws of 2008 are being implemented, limited manpower
to enforce its implementation does not allow the agency to ensure strict enforcement
either through one connection per premise or prohibition of use of motors on supply
mains. Thus, in several rural/peri-urban areas, more than one connection per premise
are provided (sometimes by two different agencies) and people use motors on supply
lines (Bhimtaal Zone I), use drinking water for irrigating homesteads, or supply to
tourist resorts (Thapaliya Mehra GP, Bhimtaal block).
30 http://ujsmis.uk.gov.in/Boundry/CRM/ConsumerComplaintForm.aspx?PLINK. 31
http://tribal.nic.in/WriteReadData/CMS/Documents/201504100257142394311MPRfortheMonthofFebruary,2015.pd
f ; and http://fra.org.in/document/Status%20Report%20March%202016.pdf. 32 http://forestsclearance.nic.in/writereaddata/FormA/Wildlife/9111612112188YNFLcombinedPDF1.pdf.
65
(c) Not among the stronger PRI state acts, the role of local bodies under Uttarakhand
Panchayat Act and Laws (as in the case of several other states) in management and
maintenance of water supply and sewerage schemes is limited. The state was
progressive in providing a central role to the GPs by giving the UWSSCs a statutory
status to anchor such schemes in villages. The World Bank-supported SWAp further
facilitated a strong role for the PRIs in planning, execution, and sustenance of such
schemes. However, in a large number of schemes (outside World Bank support), the
SWAp has not been followed and the PRIs were observed to have weak capacities
and limited roles.33
Partial enforcement of panchayat laws have meant that actual transfer of funds, functions, and
functionaries of line departments is still to take place. While women and members of
marginalized communities have been represented in the UWSSCs, the role of these committees
as a whole has been peripheral in some cases. As observed during field visits, the role of
members other than the UWSSC Chairperson (Pradhan) and Treasurer has been minimal in most
cases observed. Likewise, while the act makes the GPs responsible for managing and
maintaining panchayat assets, at many places, the GPs were not found maintaining Panchayat
Asset Registers or not mentioning existing WSS schemes as their own assets, suggesting limited
implementation of the legislation and low awareness (among those visited, the only exception
was Gaujajali GP in Haldwani block).34 OHTs have been registered as panchayat assets in some
cases but not the entire scheme.
The act also makes the GP responsible for collection of water tariffs. However, some amount of
political polarization among local communities and unwillingness of elected representatives to
take effective steps to increase revenues has resulted in limited tariff collection. Some of the
successful community-managed schemes have a tax/revenue collection of around 50–70 percent,
affecting the long-term sustenance of these community-managed schemes.35
(d) Uttarakhand District Planning Committee Act 2007 and DPC Rules 2010 are being
effectively implemented; however, lack of clarity about the district resource
envelop, parallel implementation by line departments (bypassing the DPC), and
ceilings on financial approval by the DPC affect implementation. It is important to
mention here that this is not just a bottleneck in the functioning of the DPCs in
Uttarakhand, but in several states. For example, in Uttarakhand, the sanctioning limit
of the DPC is INR 1 crore per project, as a result of which schemes costing higher
are divided into 2–3 phases and get implemented over a couple of years. In a WSS
repair and augmentation scheme in Chanoti MVS (covering Chanoti and Siloti Pani
GPs, Nainital District), the UJN has constructed a pumping unit, rising mains, and
clear water reservoir (CWR) in the first phase, while in the second phase (FY2016–
33 Observations from the field and discussions with the UJS/UJN staff in state and districts. 34 National Panchayat Asset Directory-MoPR. http://assetdirectory.gov.in/getDataPanchWiseAssetDtlReport.htm. 35 Himmatpur Mallah and Bhagwanpur Jaisingh GPs in Haldwani, Nainital District; Markoda GP in Khisru block,
Pauri Garhwal District; and Athoorwala, Doiwala block of Dehradun District are some examples.
66
17), it will seek the DPC approval for laying new distribution lines and extending
the old pipelines.
(e) After the end of the earlier World Bank support in December 2015, the SWAp has
seen variable implementation in some schemes. As a result, while there is more
community and local body engagement in several SVSs, it is not the case with many
others.36
For example, in schemes outside World Bank support, like those that the team interacted with in
Madhi-Chauras, Markhoda, and Chanoti GPs, community members as well as PRI
representatives had far less clarity about their roles and responsibilities with regard to WSS—
some respondents did not recall any capacity-building trainings they had attended, while others
recalled trainings but were unable to remember their content. There was a clear distinction
between these UWSSC members and those from World Bank-supported projects in places like
Himmatpur Mallah, Mukhani, and Gaujajali.
Opportunities
(a) The Uttarakhand Water Management and Regulatory Act 2013 provides an authority
for allocating water resources equitably to different users and also for monitoring
water conservation efforts and determining service standards for water supply. But
the operationalization of the act has failed to take off because the state is still to
constitute the Water Management and Regulatory Authority provisioned to oversee
its implementation.
(b) Water supplies, public health, and sanitation being state subjects according to the
Seventh Schedule, the Indian Constitution provides sufficient independence to states
to develop and manage their drinking water sources and sanitation infrastructure. In
addition, as a result of 73rd and 74th constitutional amendments, local bodies have
been given the responsibility of managing issues around public health and sanitation,
drinking water, and overall responsibility of maintaining community assets created
in the panchayat (Eleventh Schedule). Likewise, for urban areas, municipalities have
been made responsible to manage water supplies for all purposes—drinking,
industrial, and commercial—apart from looking at public health, sanitation, and
solid waste management (Twelfth Schedule). These provisions can be used to
further strengthen panchayats and provide them more effective roles in the WSS
sector.
(c) In addition to this supportive legislative framework from time to time, the state has
issued GOs for bringing services, schemes, and their functionaries related to WSS
under the administrative and financial control of the PRIs, for making the UWSSCs
responsible for drinking water and sanitation, and for using the SWAp in all WSS
schemes, irrespective of funding sources, which need to be universally enforced
(GOs are listed in the previous section).
36 Field observations and discussions with the UJN/UJS officials at the state and district levels.
67
Performance of Institutional Structure and Roles in the State
The three key institutions responsible for the implementation of water supply and sewerage and
septage schemes in the state are the UJN, UJS, and SWAJAL PMU.37 While the first two work
both in rural as well as urban areas, the latter implements small SVSs only in rural areas. All the
DIAs come under the DDW, the GoUK and are supposed to have distinct mandates and mutually
exclusive responsibilities. Here, we analyze the performance of these institutions from a
governance perspective, considering how inclusive, accountable, and transparent these
institutions are in fulfilling their roles and mandates.
(a) Staffing constraints and limited social capacities within the DIAs. All the DIAs
implementing WSS schemes have limited staff. For example, the UJS, which is
responsible for O&M of a large number of WSS schemes and provides staff right up
to the scheme level, has nearly 33–35 percent staff shortage across all levels.38This
limits it from fulfilling its mandate of (i) providing effective O&M services, (ii)
providing handholding and technical support to community-managed schemes, (iii)
ensuring equitable and inclusive access to users, (iv) taking over new water supply
and sewerage schemes completed by the UJN, and (v) taking up O&M of the
UWSSC-managed schemes that are facing technical and other difficulties. Likewise,
the UJN also has staffing constraints at the implementation level (the last major
recruitment took place in 2005 and 2007).
Barring the SWAJAL PMU, which was set up with World Bank support for implementing
community-led WSS schemes, the other two agencies have limited social capacities to ensure
inclusive and participatory schemes. According to the approved new organization structure, the
SWAJAL PMU has a Unit Coordinator (Operations and Social Development), Gender Specialist,
Training and IEC Specialist, and a Community Development Specialist. Each DPMU has only
six technical staff to support all WSS schemes implemented by SWAJAL in the district, apart
from working on water quality monitoring and surveillance, source sustainability, the NRDWP
support activities involving capacity building, IEC/awareness, and community mobilization for
participatory planning and implementation (apart from implementation of the SBM-G in the
district). There are three Community Development Specialists in every district to mainstream
social issues and create capacities, and they are complemented by an Environmental Specialist
and a Health and Hygiene Specialist.
Some social and community development capacities were created within these organizations
through the deployment of social experts in the UJS and the UJN by the SWAJAL PMU during
Uttarakhand Rural Water Supply and Sanitation Program (URWSSP). After the program ended
(in December 2015), these consultants were recalled by SWAJAL for supporting the SBM-G
and the NRDWP, leaving such capacities wanting in both these institutions.
37 Septage and sewerage management is divided between the UJN and UJS; SWAJAL usually does not work in this
area. 38 http://ujs.uk.gov.in/upload/contents/File-36.pdf.
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While some attempts were made to transfer social capacities to the engineers of the UJN and the
UJS through periodic trainings under the previous World Bank support to facilitate community
participation in schemes (apart from change management trainings for the UJN/UJS engineers at
the Mussoorie Academy), it has led tolimited impact with regard to improved participation or
community ownership.39
(b) Coordination issues among the DIAs. As shared earlier, all three DIAs have the
same parent department, but their field units differ and do not overlap in most cases,
making field-level coordination difficult.40 The UJS and UJN work at the division
level through the office of their EEs, while SWAJAL works at the district level
through the DPMUs. Technically, there are several forums to facilitate coordination
at different levels, like SWSM, Scheme Sanctioning Committee at the state and the
DWSMs, and the DWSCs in the districts; however, there is limited actual field-level
coordination among these agencies during implementation. With regard to approach,
the UJN and the UJS have a purely technical-engineering focus, while SWAJAL
attempts to create a community-led, decentralized model of WSS governance.41
During the previous World Bank support, under the SWAp, systems were created to strengthen
coordination and establish mechanisms for closer working at the state level as well as in the field
as a good practice, which has faced several operational barriers.
According to the mandate provided to these agencies by Uttarakhand (U.P.) Water Supply and
Sewerage Act, 1975, there is a clear role division by which the UJN is responsible for
constructing and executing all MVSs including some large SVSs, apart from augmenting old
schemes and undertaking major repair/renovation of old schemes. The UJS, on the other hand, is
responsible for O&M of schemes developed and handed over to it by the UJN and for
undertaking minor repair works. SWAJAL, which is a later entrant, is responsible for executing
and maintaining (through the community) SVS in rural areas.
In practice, however, there are coordination challenges and all three agencies work in each
other’s domain. For example, the UJS also takes up the execution of new MVSs by positioning
them as augmentation works, while the UJN carries out repair and reconstruction of schemes,
which according to mandate, should have been handled by the UJS. SWAJAL also implements
SVS in rural areas—traditionally a domain of the UJS.42 The absence of operational standard
protocols at the implementation level reinforcing the roles of agencies means that work
allocation to the DIAs by the DWSM is mostly ad hoc. Any agency gets works awarded for
39 Observations in the field and discussion with representatives of Uttarakhand Academy of Administration, Nainital
and the UJN. 40 The UJS has 28 Executive Engineer (EE) offices or divisions; the UJN has 37 offices under engineering and 15
under its construction division; and SWAJAL has 13 DPMUs. 41 Some community engagement happens in the UJN/UJS schemes under the SWAp where source identification,
technology choice, and the broad design are finalized in discussion with community, though there is strong
resistance to using participatory approach within these agencies. Technically, all WSS schemes were to switch to the
SWAp after March 2006, but this did not happen. 42 Discussions with state- and district-level representatives of the UJN, UJS, and SWAJAL.
69
which another agency is mandated or competent, and this is a major coordination issue among
the DIAs.43
Some other coordination issues confronted in the field are (a) the UJN/UJS/SWAJAL operating
different schemes in the same village using different modalities (against the spirit of the SWAp)
leading to technical problems, different water tariffs, and, hence, poor community support;44 (b)
low information sharing among agencies on each other’s work;45 (c) no handing over of the
DPRs and design layouts to the maintenance agency for carrying out repair and renovation in
future;46 (d) delays in taking over completed schemes for O&M; (e) handing over of incomplete
or technically flawed schemes in some cases; and (f) non-transfer of all SVS to GPs.47
For instance, in Kainchiwala (Dehradun), while the implementation phase ended in March 2015,
the UJS is still to take over scheme maintenance from the UJN. A similar example of Balmada
WSS (Kot block of Pauri District) was also cited during the district meeting at Pauri Garhwal
(SWAJAL Office, April 13, 2016) attended by representatives of the UJN, UJS, and SWAJAL.
In Himmatpur Mallah and Gaujajali GP near Haldwani City, the UJS and SWAJAL operate
pumping schemes in the same area but charge different water tariffs.
Similarly, the issue of limited information sharing, including lack of availability of the DPRs,
came out during discussions with the UJS staff in Srikote (April 14, 2016 at Pauri Garhwal
District) and at Bhimtal (May 3, 2016 in Nainital District). These discussions also highlighted
the resistance among the DIAs managing old schemes to hand over their old networks when a
new scheme was sanctioned to another agency.
(c) Information sharing and coordination with other government agencies.
Coordination and information sharing is required among several state agencies
working on water supply, sanitation, or infrastructure development, which affects
WSS work in peri-urban areas. These include Departments of Panchayati Raj, Rural
and Urban Development, Irrigation, Forest and Public Works. For example, rural
and urban development departments are working individually on drinking water
supply and sanitation, and there is limited involvement and information sharing with
the UJN and the UJS—the state’s designated agencies for this sector. In surface
water-based schemes, there are coordination challenges between the DIAs and
Irrigation Department, because the management/maintenance of source remains with
the latter and the DIAs cannot undertake any source improvement or desilting
works. Likewise, minor irrigation bore wells in peri-urban areas (found largely in
Nainital District) are being partially or fully used for WSS schemes (as these areas
43 Discussions with representatives of the UJN, UJS, and SWAJAL at state and district levels. 44 In the SWAp schemes, however, this problem is eliminated to some extent by a system of single rates and joint
signatories. 45 Each agency uploads its own data on the NRDWP IMIS, while for World Bank-supported schemes, the data is
uploaded on SWAJAL-SIS. 46 Discussions with the UJS staff in Haldwani and Rishikesh. The UJN representatives in Naukuchia Taal cited the
example of an STP and sewage network completed by the UJN that has not been connected to households by the
UJS, thus preventing the testing and operation of the system. 47 Field observations and discussions with the UJN and UJS representatives at the State and in districts.
70
do not have significant cultivable area now), but their handover either to the GPs or
to the DIA has not taken place.
In a number of rural and peri-urban areas, the Rural Development Department has installed hand
pumps without due sharing of information with the DDW. For example, it tendered and installed
a large number of hand pumps in Haridwar District with no involvement of the UJN/UJS for
getting technical guidance, or even formal information sharing. The Urban Development
Department is implementing the ADB-supported UUSDIP on urban water supply, waste water
management, and sewerage and solid waste management in select towns and even in peri-urban
areas (amelioration of water bodies in Bhimtal block and OHT construction in and around
Haldwani City), but there are no information sharing mechanisms.48 Apart from this, limited
coordination with the Forest Department (delays in forest clearance) and PWD (lack of prior
information on road cutting works or laying of new roads affecting the maintenance and
augmentation of existing drinking water and sewerage networks) are some other coordination
challenges.
(d) Information sharing with PRIs. The SWAp provides for elaborate systems to
ensure due involvement of the GPs in the implementation of WSS schemes,
developed under the URWSSP. All schemes under the SWAp need to follow a
standard community engagement process, which involves a separate planning phase
and an implementation phase where systems are developed for graduated
involvement of the community in the planning and management of the WSS
interventions.
The planning phase starts with demand creation from the community followed by the
constitution of the UWSSCs, defining of roles and responsibilities of the GP/UWSSC and
training of members, designing of schemes with technical support from the DIA and SO (NGO),
and mobilization of community contribution (cash or labor) for the scheme and ends with the GP
commitment on behalf of the community to operate the scheme. The implementation phase
involves the signing of the Implementation Phase Quadruple Agreement (IPQA) between the
UWSSC/GP/DIA and SO, followed by training of various committee members and functionaries
on different operational and financial functions and final handing over.
As flagged earlier, varying application of the SWAp by different DIAs has meant that, in some
schemes, involvement of the PRIs and local user committees is only limited to steps where their
concurrence is absolutely mandatory. Even in some schemes following the SWAp, it was found
that the DPRs and layouts were not available at the GP office or elected leaders were not aware
of the nature of water treatment or results of periodic water quality tests.49 As cited earlier, in
Madhi-Chauras, Markhoda, and Chanoti GPs, community members and the PRI representatives
had far less clarity about their roles and responsibilities with regard to WSS as compared to those
in World Bank-supported schemes in places like Himmatpur Mallah, Mukhani, and Gaujajali. It
48 While these are exceptions and not the practice, as most rural and urban development funds for the WSS sector
are usually transferred to the UJN or the UJS, and depending on the case and funding source, these cases are
highlighted to flag the overall coordination issues. 49 Discussions with the UWSSC chairpersons in different GPs in Dehradun and Haldwani Districts.
71
is also important to note that differences in community and committee capacities and
understanding across schemes could also have been affected by the quality of community
mobilization efforts made by SOs or the individual capacities of the UWSSC chairpersons.
In the SWAp schemes where the UJN was the DIA, there was resistance to involving the
community in the planning and implementation phases despite elaborate arrangements made to
that effect. According to the UJN representatives, the agency wants to come out of the SWAp
since “community involvement leads to project cost and time overruns that delay project and
reimbursement cycles, especially in the more complicated and large MVS (that usually are
executed by UJN) for which UJN is held accountable.”
Effectiveness of Implementation of Programs and Schemes
The effectiveness of the implementation of major water supply, sewerage, and septage
programs50 in the state is analyzed here against the basic principles of social inclusion, equity
and access, participation and community involvement, accountability and transparency, and
grievance redressal and citizen’s engagement. Because there are no current programs exclusively
focusing on peri-urban areas, issues seen in rural/peripheral urban areas that are likely to be
confronted in peri-urban locations have been analyzed.
(a) Social Inclusion
(i) Representation of the marginal. The UWSSC for each scheme needs to have
representation from women (30 percent) and members belonging to the SC/ST
community (20 percent), and this has been adequately complied with in the
formation of the UWSSCs. There are 36 percent women and 24 percent SC/ST
members in the UWSSCs constituted in the state, though there are relatively
few committees where women are in decision-making roles as chairpersons,
secretaries, or treasurers.51
(ii) Resources for vulnerable communities. Funds are being provided under the
TSP and SCP for the provisioning of WSS services to predominantly SC/ST
habitations. The total WSS budget of the state for FY2016–17 was INR 43.40
crores. Of this, INR 12.35 crores and INR 3.24 crores have been earmarked for
the SCP and the TSP, respectively, in proportion of the SC/ST population of the
state. An additional INR 9.02 crores was sanctioned for the construction of
water supply schemes in minority villages during FY2015–16 and FY2016–
17.52
(iii) Inclusive water pricing. In schemes managed by the UJN and the UJS,
differential water tariffs are fixed for the general population and socially
excluded communities. The same approach is applied while mobilizing
50 The NRDWP, AMRUT, Namami Gange, and SLWM component of the SBM. 51 Discussion with the SWSM representatives on March 18, 2016. 52 Data provided by the SWSM Uttarakhand.
72
community contribution for new schemes.53 However, similar provisions for
exemption do not exist for economically vulnerable—BPL. While the DIA-
managed schemes stick to these differential rates, community-managed
schemes (SWAJAL) have been more equitable in their approach in either
exempting the poorest of the poor or women-headed households from paying in
times of difficulties or reducing their tariff (Athoorwala GP, Doilwala block,
Dehradun).54 There are also instances where tariff was brought down based on
a decision of the Gram Sabha (from INR 164 per month to INR 100 per month
in Kainchiwala MVS, Sahaspur block, Dehradun). Similarly, when residents in
Sapera Basti could not pay higher water tariff, it was brought down to INR 70
per month for its SC/ST residents (Sahaspur block, Dehradun District) though
there are still outstanding payments (between INR 1,000 and INR 2,000) for
most residents. The UWSSC has also permitted them to pay the outstanding
amount in easy installments.
(iv) Support system for strengthening community processes. The previous WSS
projects in the state that worked with CBOs /NGOs led to a large network of
organizations with capacities to facilitate inclusion, access, equity, and
participation; this would be beneficial for mainstreaming community stakes in
all future WSS programs.
(v) Exclusion through private connections. In regions predominantly inhabited
by marginalized communities, dependence on public water supplies, especially
public standposts/hand pumps, is higher and is preferred over private
connections for reasons of affordability. For example, in the dalit habitation of
Srikote (Srinagar peri-urban area), 3 public standposts supply water for 1.5
hours a day to 50 households and self-regulation (2 utensils per family) is
followed.55 Though the community is exempt (since two–three years) from
paying tariff for using standposts, they want standposts to remain and are
willing to even pay for improved public supply.
(b) Equity and Access
(i) Equitable policy framework. For new schemes, the state’s priority is to cover
habitations with less than 40 lpcd first, then those with less than 55 lpcd to
bring them to service levels. In addition, according to the new NRDWP
guidelines, the state is now working on first covering all habitations with 0–25
percent household coverage and then those with 25–50 percent household
coverage. The program is also trying to work with a household-level water
security approach. This strategy is inclusive and has ensured better targeting of
vulnerable communities and water insecure habitations. As a result of the
53 GO No. 836 of the DDW dated January 16, 2008. 54 For urban areas, the tariff is fixed based on the number of connections (taps/seats), size of the dwelling unit, and
the estimated rental value of the property. 55 In summers, during power outage or major repairs, there is no water supply for 2–3 days.
73
SWAp, all WSS schemes, irrespective of their funding source (central and state
sector), are to work with this approach.56
(ii) Effective prioritization. Prioritization of habitations/villages/GPs for
sanctioning new SVS is based on the following criteria:
Time saving for village in meeting its drinking water needs
Extent of present coverage
Water quality
Receipt of Gram Sabha resolution undertaking their willingness to pay for
O&M.
This also ensures equitable access to vulnerable communities.
(iii) Contingency planning. Before the onset of summers, when sources are weak
and shortfall peaks, the UJS makes advance planning, wherein all habitations
with potential water scarcity are identified based on past trends, reports of
weakened sources, and likely increase in demand (usually in peri-urban areas
and regions with seasonal tourist influx). Based on this assessment, the UJS
prepares an Annual Contingency Plan for provisioning drinking water either
through existing schemes or through water tankers in coordination with local
bodies to such areas.57
(iv) Inequitable distribution. In several regions, distribution of safe drinking
water is highly iniquitous because of difficult topography, lack of feasible
options, sparse population, and limited resources. At present, only 20 percent
of the population in the state receives 100 lpcd of water, the remaining gets
less than 55 lpcd.58 Rapid population influx into peri-urban areas means that
there is a large demand-supply gap in areas designated as CTs and out-growth
towns.
(v) Weakening due diligence. In the SWAp, there is a system of third-party
monitoring to certify completion of the implementation phase and to ensure
execution of schemes according to the DPR for equitable distribution of
benefits (IPCR). This approach is not being applied to all the WSS schemes
now.
(vi) Disproportionate allocation for industries and high-volume consumers.
Water connections for commercial users and industries are usually metered and
follow different tariff slabs (compared to domestic connections).59 However,
56 Discussions with the UJN state representatives, March 19, 2016. 57 Districts that usually face water scarcity each year are Tehri Garhwal, Almora, and Pauri Garhwal. 58 Technical Presentation, Design Workshop, Dehradun, March 15, 2016. 59 Discussions with the UJS state representatives and field officers in Bhimtal block, Nainital.
74
large-scale consumption by such establishments creates challenges to equitable
distribution because the source and supplies are limited. Where the DIA is
unable to provide water to non-domestic consumer, an NoC is provided by the
UJS, development authority/local body, and the power distribution company—
DISCOM—for digging bore wells leading to abstraction from the same source
as that used for RWSS. This along with low staff deployment by the DIAs like
the UJS means that they cannot monitor consumption of individual
users/institutions leading to disproportionate consumption.
(vii) Trade-off between outreach and pricing. In some small WSS schemes (with
small and dispersed population), the O&M cost is far higher than the revenue
collected (for example, in Markhoda GP, Khisru Block, Pauri Garhwal District
- smallest GP of the district), which makes operating schemes difficult, and
they have to regularly seek additional funds or use MGNREGA funds to cover
operational costs.60 This creates a difficult trade-off between keeping schemes
affordable and creating universal rural access.
(viii) Matching pace with high population growth. Because population in peri-
urban areas is growing rapidly, providing connections to new dwelling units is
a constant challenge. Significant increase in population has led schemes to go
beyond their design population in a matter of few years.61 This makes access
difficult for those dependent on public supplies because existing schemes are
already overstretched.
(ix) Equitable distribution in an iniquitous society. Several peri-urban areas (of
Srinagar, Haldwani, Nainital, and Dehradun) are now also inhabited by people
with superior affordability (farmhouses and modern housing colonies), some of
whom consume much more water than the 70 lpcd mandated for rural areas.
They also install motors on distribution lines or supplement government
supplies (either through private bore wells or by getting public water tankers).
As a result, the poorest and the vulnerable who are dependent on public
supplies (private connections or standposts) get limited supply.62. During
FGDs with the UJS staff (May 3, 2016), it was estimated that nearly 15 percent
water sources in Bhimtal region have dried up and several others have
weakened because of recent population increase and higher than ‘planned’
demand.63 As a coping strategy, rostering has been started to ensure minimal
water supply to all areas.
60 Discussions with Pradhan – GP Markhoda, Pauri Garhwal District. 61 Several instances were found where recent schemes have reached design population in a few years, for example,
Himmatpur Mallah in peri-urban area of Haldwani where population doubled in less than four years or Gaujajali GP
in Haldwani where design population in 2008 was 1,400 and it has already crossed 10,000 in 2016. 62 Residents of Sapera and Harijan Basti in Bhamiyawala, Dehradun District cannot afford to install motor pumps
and receive less water if valves for supplying to other areas are not closed by the pump operator on time. 63 Discussions with the UJS officials in Bhimtaal Zone I, Nainital District.
75
(x) Physical access for marginal communities. Because most schemes in peri-
urban areas have been stretched, residents living on the village periphery or
above the reservoir in hilly areas64 (usually the marginalized) are at the tail
end. As a result, they receive either no water or in limited quantities, as in
Madhi MVS in Chauras GP of Tehri Garhwal District (peri-urban area of
Srinagar City, Pauri District) or in Sapera Basti (peri-urban area of Dehradun
District). Community members in Chanoti and Silotipani villages, Bhimtal,
Nainital District, shared that SC households living above the CWR climb down
1 km to access public standposts for which they pay INR 10 per month. In such
cases, women and children have to fetch water from alternate sources adding to
their drudgery.65
(xi) Competing demands from industry and institutions. There is competing
demand on water supply in peri-urban areas from institutions, house
construction, tourism/hotels, and sometimes even agriculture. Large-scale
construction of buildings and houses has created additional pressure on limited
supplies, leading to inequitable distribution and problems of access in some
peri-urban areas. Hemvati Nandan Bahuguna University (HNBU) campus in
Madhi village (Chauras GP, Tehri District) adds to the region’s water scarcity,
because the university is partly supplied from the village scheme and also
extracts water for its use from the same source, weakening it in the long term.
In addition, nearly 2,000 students stay in hostels in Madhi village leading to
increased demand and scarcity for residents.66 Similarly, water is supplied
from Srinagar main pumping station and Srikote WSS to Virchandra Singh
Garhwal Medical College—during summers, the UJS and local body have to
supply water to the hospital through tankers.
(xii) Enforcement of panchayat powers for ensuring equity. Thapaliya Mehra,
Chanoti, and Siloti Pani GPs fall in the peri-urban area of Bhimtaal (Nainital
District)—with several resorts and hotels located within the GP boundary—1
in Chanoti, 6 in Siloti Pani, and 12 in Thapaliya Mehra (according to estimates
of the UWSSC chairpersons). Most of them are either using water supplied
under irrigation schemes and WSS schemes or abstracting groundwater—all
leading to deepening water table and weakening source.67 These are in addition
to several educational and other institutions that have come up in recent years.
No tax is being collected by the GPs from them, though its levy and collection
64 SC households located on the higher reaches in Silotipani GP and Thapaliya Mehra GP do not have access to
WSS schemes and either have to come down to fetch water from standposts or get it from other sources -
springs/gadhera. 65 Even if there is no increase in water tariff, community members in peri-urban areas of Srikote shared that they
would prefer 2–4 hours of good quality water supply against 24×7 supplies. 66 When the hydroelectric power project was sanctioned on Alakhnanda River near Srinagar City, the company that
was awarded the contract had signed a bond with 10 adjacent GPs assuring smooth water supplies, but no water has
been provided so far. 67 Thapaliya pumping-based scheme had to be augmented in three years because of poor discharge.
76
is well within the GPs’ power. As connections are not metered, residents are
also using this water for homestead farming or kitchen gardening, even while
some residents are deprived of drinking water (in Thapaliya Mehra and Siloti
Pani GP). The panchayat at times chooses not to intervene for ensuring equity
in such cases.
(xiii) Preference among the most vulnerable for public sources. In earlier
schemes, a combination of private connections and public standposts were
provided to address the needs of all sections. However, in recent years, there is
a growing trend toward private connections, though some people still prefer
standposts because of affordability. This is likely to create difficulties for
economically vulnerable communities.68 Discussions with members of
vulnerable communities at Srikote on April 14 and Gaujajali on May 4, 2016,
showed preference for good quality supply from public standposts over private
connections.
(xiv) Urban-rural resource sharing. In some cases, the ULBs are also servicing
the needs of peri-urban outgrowths with respect to water and sanitation. For
instance, the Srinagar municipal body is supplying water to the adjoining
Ufalda GP, and UJS Zone-I in Bhimtal town is supplying water to nearly 350
households in rural/peri-urban areas. Likewise, the Dehradun Municipal
Corporation has allowed solid waste from peri-urban areas of Sahaspur and
Vikasnagar to be dumped at designated locations within the municipal limits
for collection and disposal. Because pressure is building on urban
infrastructure owing to population increase, this is only a temporary facility
that would be withdrawn as soon as these facilities reach their capacity. The
Dehradun Municipal Corporation is preparing the DPRs for the GPs (in peri-
urban areas) that will come within city limits in the next few years for
providing water supply according to urban norms and waste collection for
these habitations.69
(c) Participation and Community Involvement
(i) Panchayat-centric implementation model. The Pradhan of the GP is the ex-
officio UWSSC chairperson of SVS, while in case of MVS, Pradhans and the
UWSSC treasurer of all GPs are members, and the Pradhan of the GP nearest
to the source becomes the MVSLC chairperson. Members of those wards that
are covered by the scheme are also members of the UWSSC. This has ensured
due involvement of PRIs in the O&M, conflict resolution, and revenue
collection and is beneficial for sustainability and ownership.
68 Discussions at an SC hamlet in Srikote, Srinagar peri-urban area, Pauri District, and community members and
NGO staff (SHRADHA) at Kainchiwala MVS, Sahaspur block, Dehradun District. 69 Discussions with representatives of Dehradun Nagar Nigam, April 12, 2016.
77
(ii) Ownership of the UWSSCs. Under the SWAp, decision making is technically
with the UWSSCs—from selecting the source, design technology, tendering,
procurement (through its procurement committee) to execution of the scheme.
The DIAs, GPs, and SOs are supposed to facilitate participation in scheme
planning and execution. But unlike in SVS, in MVS, limited input is taken
from the MVSLCs by the UJN.
(iii) Mixed impact of past investment on capacities. Trainings have been
provided in the past to elected representatives, the UWSSC chairpersons,
treasurers, and UWSSC procurement committees on roles and responsibilities,
feasibility, planning, and O&M. Nearly 654 refresher trainings for about 7,000
participants were organized in recent years. The SO staff has also been trained
to facilitate processes and for further capacitating the committees. However,
these capacity-building initiatives were found to have mixed impact—while
some UWSSCs have aware and empowered members, others had limited
awareness and understanding about WSS issues and their scheme, examples of
which have been cited in earlier sections. Under the SWAp, there was
emphasis on developing capacities of community members and elected
representatives on planning, execution, and operation, but in many cases, the
impact of such investments is not visible. The UWSSCs have not matured into
independent institutions for governing their water and sanitation schemes.
(iv) Varied capacities of the SO and the UWSSCs. There was variation in the
capacities of SOs deployed under the SWAp and the NRDWP to handhold the
planning and implementation process, which has led to different capacities in
the UWSSCs and hence differences in the levels of mobilization and
community ownership. Even in the SWAp schemes, there was variation in the
degree of the UWSSC awareness and management capacities probably because
of differences in intensity of SO support, priority of the DIA, and individual
capacity of committee members leading to different levels of participation and
community involvement.70
(v) Limited community participation and contribution. While community
participation has been made mandatory for all WSS schemes, in several areas,
mobilization was not very extensive and remained limited to creation of a
UWSSC. This happened especially in areas where SOs had limited capacities
or GP leadership was weak.71 This also reflected in difficulties in mobilizing
community contribution - one of the reasons why community contribution
70 Discussion with SWAJAL-DPMU and SO representatives, Pauri Garhwal, April 13, 2016, SO representatives in
Dehradun city, April 15, 2016. 71 Discussions with SWAJAL-DPMU Pauri Garhwal, community members in Kainchiwala MVS, SO
representatives - Pauri Garhwal and Dehradun and GoUK GO No. 836/XXIX/08-2(22Pey)04/2008 of July 2008,
which states that the community is finding it difficult to contribute 10 percent in a scheme with high cost, as a result
of which contribution is being brought down to 4 different flat rates for (a) general-private connection, (b) general-
public standpost, (c) SC-ST private connection, and (d) SC-ST public standpost.
78
(cash or labor) was brought down from 10 percent of the scheme cost to a flat
rate (INR 600 for general households and INR 300 for socially vulnerable) in
2008.72
(vi) Disincentives for community-managed schemes. There are strong system-
level disincentives for the community to take over the O&M of MVS and
SVSs. The UWSSCs and the MVSLCs pay electricity tariff incurred on
pumping and water supply at commercial rates, while other DIAs (the UJN and
UJS owing to their statutory status) pay it at a non-commercial rate. In most
pumping-based community-managed schemes, electricity cost is nearly 70–80
percent of total operation cost; high energy cost and low tariff collection drive
these schemes toward losses, forcing user committees to request the UJS for
takeover.73 This is particularly common in peri-urban areas falling in the plains
(Haldwani, Dehradun, Haridwar, and Rishikesh) where most schemes are
pumping-based. This, as well as the lack of complete support from the DIAs, is
also the reason why many communities are unwilling to take over schemes that
need to be ultimately managed by them.74
(d) Accountability and Transparency
(i) District-level systems for accountability. In cases where there are differences
between the DIA and the UWSSC with respect to scheme design, the matter
comes to the DWSC/DWSM. In community-managed schemes (SWAJAL),
technical advice of the UJN/UJS is taken and decision of the agency is final,
even though the community is ultimately responsible for the success of the
scheme.
(ii) Selective takeover of schemes. In MVSs where O&M has been handed over
to the community, the responsibility for maintaining the network from the
source to the OHT/CWR is with the UJS, while maintenance of distribution
lines lies with the UWSSC/MVSLC, where repair works are needed more
frequently. The UJS generally tries not to take over such schemes where it is
made responsible for partial maintenance because it involves close
coordination with the committee and splitting of revenue (for example,
Balmada WSS, Kot block, Pauri Garhwal).75
(iii) Low handholding support to community-managed schemes. Though
technically the DIAs are supposed to follow up with the UWSSCs and
monitor/guide the committees in the management to ensure equitable access
72 Discussions with SWAJAL-DPMU Pauri Garhwal, SO representatives - Pauri Garhwal and Dehradun. 73 Exemption of community from paying for electricity consumed at commercial rates in WSS schemes has been
pending with the state government for several years now. 74 According to community members and the UJN staff, Kainchiwala MVS got delayed for three years due to low
community contribution as well as unwillingness of the community to take over the responsibility of independently
managing a scheme. 75 Discussion with the UJN, UJS, and SWAJAL DPMU representatives, Pauri Garhwal, April 13, 2016.
79
and overall community participation, in practice, there is limited follow-up and
handholding support to the UWSSCs once the schemes have been handed
over.76
(iv) Information sharing on scheme modalities. There are many areas where two
agencies (usually the UJS and SWAJAL) are providing WSS services (referred
to in previous sections) under two different WSS schemes operated using
different modalities, practicing different management arrangements, and
charging different tariffs—even when they are similar schemes (pumping or
gravity). This leads to confusion within the community and poor
accountability. For example, in Himmatpur Mallah and Gaujajali GPs near
Haldwani City, the UJS and SWAJAL operate pumping schemes created at
different points in time and charge different tariffs. Because of lack of clarity,
community members continue paying for both schemes, though, in some cases,
they get drinking water from only one scheme.
(v) Accountability for delivering services. In Himmatpur Mallah near Haldwani
City, the UJS scheme has not been providing water since two years, but lack of
awareness and the threat of having to pay new connection charges if water
supply is restored has forced the community to continue paying water tariff
under both the schemes—the UJS and SWAJAL. Similar cases were found in
Gaujajali GP, where users are paying for connections under both schemes,
though they get regular supply from only one. Some community members also
have to get private tankers during the summer season when supply is low.
(e) Grievance Redress and Citizen’s Engagement
(i) Robust and replicable grievance redress systems. There is an elaborate
system of grievance redressal within the UJS. The UJS takes an NoC from the
community before entering and exiting a scheme. There is a 24×7 centralized
helpline and a web-based grievance system for registering complaints.77
Mobile numbers of EEs and other field staff are made available in the public
domain in each division/zone for airing grievances. There is also a system of
grievance escalation wherein all complaints unaddressed by the respective
divisions get escalated to the UJS headquarters, where they are reviewed and
redressed. In case of community-managed schemes, all grievances first go to
the UWSSC from where unaddressed grievances go to the GP and then to the
DWSCs.
(ii) Effective right to service provisions. New water supply connections are
under the purview of the Uttarakhand Right to Services Act. The UJS is
designated as the main agency responsible for providing connections to
different categories of consumers (households, institutions, and commercial
76 Discussions with the SWAJAL, UJN, and UJS representatives in Pauri Garhwal District. 77 http://ujsmis.uk.gov.in/Boundry/CRM/Consumercomplaintform.aspx.
80
users). In addition, the statewide grievance redress systems like Samadhan
portal and the Chief Minister Helpline are also used for registering WSS-
related grievances by the citizens.
(iii) Community collaboration for minimizing grievances. While the UJN/UJS
prefers to work with a technical focus and does not invest in community
processes, there is general acceptance that in schemes (under the SWAp)
where they worked closely with the community, grievances were far less as
compared to schemes where there was minimal community engagement.
Potential Social Effects of the Program
The social impacts presented here are based on several assumptions about the final design of the
program—centered around the WSS Program for Peri-Urban Areas.
Social Strengths and Benefits
(a) The program directly contributes to the Sustainable Development Goals (SDG 6 -
Ensure access to water and sanitation for all) by providing universal and equitable
access to safe and affordable drinking water and adequate and equitable sanitation
and hygiene for all.
(b) The program aims to comprehensively partner with the state government for
improving the delivery of WSS services in peri-urban areas—by supporting the
development of a responsive state WSS policy, capacitating key institutions, and
strengthening participatory planning and monitoring processes.
(c) In Uttarakhand, existing policies provide a strong platform for community- and
panchayat-led initiatives. The WSS schemes in the state are strongly embedded
within the Panchayati Raj system, which the program is likely to carry forward.
(d) Capacity inputs to be provided to elected representatives, community members, and
other stakeholders under the program will further reinforce learnings created in the
previous program, leading to greater ownership and participation.
(e) By focusing exclusively on peri-urban areas, the program is likely to fill a vital gap
in the planning capacities, service delivery, and WSS governance in these areas,
which are characterized by rapid demographic changes, weak/eroding institutions,
inequitable access, and suboptimal services.
(f) Improved and equitable access to water and sanitation services will have a positive
impact on the well-being of marginal communities, especially women and girl
children, by improving livelihood choices and learning opportunities, reducing
drudgery, and lowering morbidity and related household health expenses.
(g) Because the program will closely work with community-based institutions and local
bodies, and will invest in enhancing their capacities, it is likely to lead to overall
81
improvement in local governance and encourage responsive, inclusive, and
participatory processes.
(h) The proposed program investments are likely to promote equity as they aim at
creating systems for metering and volumetric tariffs, to make different categories of
users more accountable and consumption equitable.
Social Gaps and Weaknesses
(a) At present, there is no dedicated national- or state-level program on water and
sanitation for peri-urban areas, with which the existing program can be detailed for
sustainability. (National Rurban Mission [NRuM] is still in the process of being
rolled out in select clusters)
(b) There is absence of strong systems for ensuring equity and access in
implementation. Limited availability of field staff within the DIAs for close
monitoring or for ensuring better enforcement of the 2008 bylaws creates challenges
to equity and access.
(c) Unwillingness of panchayats to get involved in conflict management and create
sanctions for non-payers also creates bottlenecks for the sustainability of schemes.
(d) Community participation is not uniform across locations, which impacts the nature
of ownership; limited social mobilization has also led to poor compliance of
committee bylaws and low tariff collection in some cases, which can impact scheme
sustainability.
(e) There is lack of state-level systems to regulate water use by large
institutions/establishments in peri-urban areas and assure supplies for the
community, especially in areas with severe water scarcity.
(f) Limited coordination between key agencies and the multiplicity of institutions
working under different modalities in the same region create challenges in
implementation and lead to poor accountability.
(g) There are challenges to provisioning WSS services in regions with difficult
topography, where population is small and dispersed and there are challenges to
scheme sustainability. In addition, there is a trade-off between scheme viability and
universal access, impacting the sustainability of such small schemes.
(h) Gaps exist in state policies that create disincentives for community management in
the form of different power tariffs for community-managed and DIA-managed
schemes.
Social Risks
(a) High and unexplained trends of population growth make design and planning of
schemes that provide universal access to WSS services in peri-urban areas
particularly difficult.
82
(b) Fractured, polarized communities and mixed populations of old and new settlers in
peri-urban areas make social cohesion, mobilization for collective action, and
ownership difficult.
(c) Because of this increasing and assorted population, there is immense pressure to
provision basic services (including drinking water and sanitation) and reduce service
gaps. As a result, risks of conflicts because of variations in demands, especially
among new and affluent settlers, is high.78
(d) Since the program ‘p’ will be implemented in peri-urban spaces, resource sharing
between rural and urban local bodies and creation of water and sanitation
infrastructure for urban areas in rural locations, and vice versa, can be a potential
cause of rural-urban conflict in future.
(e) Metering of consumption will tend to exclude those with limited capacity to pay—
those that were traditionally accessing public standposts for water supplies at no or
nominal cost. For example, discussions with communities in Srikote and Gaujajali
showed preference for good quality supply from public standposts as against private
connections, because of reasons of affordability.
(f) Risk of exclusion of communities living on the fringes of habitations—above the
reservoir/tank or at the tail end of schemes. Field visits to Madhi MVS in Chauras
GP of Tehri Garhwal District (peri-urban area of Srinagar city, Pauri District),
Sapera and Harijan Basti (peri-urban area of Dehradun District), and SC households
on higher reaches of Silotipani and Thapaliya Mehra GPs showed that residents
living on the tail end of a scheme or above the CWR (in hilly areas) are usually from
marginalized communities. Thus, they receive either no water or in limited
quantities and often have to access public standposts or unsafe sources—
springs/gadheras.79
(g) Limited involvement of communities and community institutions during planning
and implementation phases may affect sustainability of schemes.
(h) There are also low potential risks of some private land requirement in case
government or GP land is not available for creating water and sanitation
infrastructure—pumping stations and OHTs..
78 The new settlers include former bureaucrats, retired and serving army officers, serving and retired heads of
statutory bodies, businessmen, and so on. Haldwani peri-urban area has seen a host of such housing
societies/colonies with high water demand coming up in recent years. For example, in Bhimtaal, a recently
developed housing society (of 139 houses) in Bhaktyuda GP has coincided with water scarcity in this GP for the first
time. 79 Discussions with community members in Sapera Basti and the UWSSC chairperson in Bhamiyawala, Dehradun
District conclude that habitations occupied by vulnerable communities and those on the upland get less water when
private motors are used by households on their private connections.
83
Social Opportunities
(a) The state has an enabling policy environment that provides a prominent place to the
community and panchayat. This has provided impetus by the national legal policy
architecture that encourages states to create participatory, accountable, and inclusive
WSS schemes. Program guidelines of the NRDWP, SBM-G, and AMRUT promote
community participation and inclusive schemes to address household-level water
security, sustaining community-level sanitation and Service-level Improvement
Plans (SLIPs), respectively.
(b) The state also uses very effective and inclusive criteria for prioritizing schemes and
for targeting regions with higher vulnerability. Some agencies also have a system of
annual contingency planning to ensure temporary provisioning of water supplies to
insecure habitations during peak scarcity to ensure inclusion.
(c) The state has rich past experience of implementing community-based water and
sanitation projects. Major state stakeholders are conversant with and have been
strongly oriented on the use of participatory approaches in the WSS sector that the
new program can build upon.
(d) The newly launched NRuM that aims to work in rural growth clusters
by provisioning for economic, social, and physical infrastructure facilities
(sanitation, piped water supply, and SLWM) creates opportunity for testing
convergence, resource leverage, and sustainability in peri-urban areas.
(e) There is a large network of CSOs in the state trained to facilitate community and
participatory processes in the WSS sector on scale and can help in strengthening
community capacities for supporting planning and monitoring of schemes in the
peri-urban areas.
(f) Some agencies like the UJS have very strong grievance redressal systems for
accountability and responsive service delivery and could be replicated for the sector
as a whole.
(g) The ULBs are servicing the WSS needs of peri-urban areas in select locations,
through smooth coordination among local bodies, though this is not a formalized
system. This provides opportunity for large-scale coordination and convergence in
peri-urban areas.
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Chapter 6: Assessment against Core ESSA Principles
This section considers the social and environmental risks flagged in the previous sections and
analyses their likely impact and available strategies for risk mitigation against the Core ESSA
Principles. It also highlights those risks/weaknesses that remain unaddressed in the current
legal-policy framework and for which additional mitigation measures may be required.
Core Principle 1
Environmental and social management procedures and processes are designed to (a) promote
environmental and social sustainability in the program design; (b) avoid, minimize, or mitigate
adverse impacts; and (c) promote informed decision making relating to a program’s
environmental and social impacts.
Applicability
This core principle is applicable to both environmental and social management. Activities
planned in this program are to focus on water supply and its management. Therefore, there will
be a demand for water abstraction for various uses and creation of waste that needs to be
disposed. Hence, actions that promote long-term resource sustainability require informed
decision making as a part of program design. Equally, impacts through resource abstraction,
construction, waste disposal, and day-to-day running and maintenance may occur and would
need to identified and managed. On the social side, systems need to be in place for ensuring the
sustainability of institutions created through the program investments and for managing/avoiding
any adverse social impacts. Therefore, this core principle is central to the assessment of all
actions undertaken in this program.
Strengths
(a) Water supply and its management is a well-understood subject in the state, and there
already exist a number of different systems and technologies that address possible
activities planned under the program.
(b) There has also been more than a decade of work on rural WSS in the state with
World Bank support; so, knowledge of institutional strengths, weaknesses, and
technological concerns exist and can be incorporated in program design to
strengthen outcomes.
(c) There is a well-developed regulatory framework for environmental management in
the country applicable at the state level, including state-specific regulations. Site-
specific concerns such as those for PAs, their buffers, and eco-sensitive areas are
also addressed through regulatory systems and other guidance. Standards for
emission and discharges for various activities are in place. Well planned and well
designed, the overall impact is likely to be positive on the environment. Therefore,
this program may also help support create environmental sustainability.
85
(d) Similarly, a tested governance structure is in place in Uttarakhand that is linked to its
Panchayati Raj system that ensures that issues of access, equity, and participation
are duly addressed. Past and extensive experience of local bodies of handling WSS
schemes makes them competent to address and mitigate any negative social impacts.
Additionally, several policies, notifications, and orders are in place that promote
people’s participation.
Gaps, Inconsistencies, and Risks
(a) Although a number of regulatory procedures exist, ground implementation is
inadequate such as the disposal of waste and sludge from WTPs. Presently, there is
no system identified for the disposal of sludge and other WTP waste like oil,
batteries, empty containers and old electronic equipment.
(b) There are a number of regulations to support environmental sustainability. However,
not all are adequately implemented, such as the Uttarakhand Water Management and
Regulatory Act, 2013. To be implemented by the State Water Authority and to
ensure preparation of basin plans and integrated water management and basin plans,
an institutional system is required, which is yet to be put in place. Similarly, the
Doon Valley eco-sensitive zone notification of 1989 under EPA 1986 needs a master
plan developed, resulting in inadequate understanding of existing eco-sensitive
zones and areas, to prevent its violation.
(c) There are a number of regulations, notifications, and rules that address concerns of
water resources in Uttarakhand, but there is no single vision or regulatory system to
comprehensively look at the management of water resources. Therefore, long-term
concerns of both sustainability and for downstream users of the resources may exist.
Although, at present, there are no concerns of groundwater depletion or quality
degradation, this could become an issue in the longer term without adequate
measures in place.
(d) Local bodies in the state are familiar with community-based models of water and
sanitation, but there are limited capacities within key implementing agencies on
issues of social sustainability. Despite the enabling policy environment, different
agencies have been treating community ownership and participation differently. This
is further aggravated by disincentives that exist for community management.
Absence of state-level social risk screening mechanisms for large MVSs also leads
to risk of negative social impacts.
Opportunities
(a) For areas where regulatory standards and procedures exist, strengthening
implementation by ensuring regulations are followed as required and creating
guidance such as checklists to support implementation may be useful.
(b) The Program may be able to support improving everyday management of the
systems through the provision of guidance for ensuring disinfection and routine
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system management for pump operators at pump houses; basic guidance for
ensuring disinfection and routine system management could be made available to
pump operators.
(c) The program design proposes investments in the capacity of stakeholders for
delivering WSS services in peri-urban areas, and this will help in better community
participation and management. Several SOs in the state have the orientation to
support large-scale capacity development. An IEC strategy developed around
creating community awareness will help in ensuring sustainability of investments
made by the program.
Core Principle 2
Environmental and social management procedures and processes are designed to avoid,
minimize, or mitigate adverse impacts on natural habitats and physical cultural resources
resulting from the Program.
Applicability
This core principle is applicable largely to environmental management. Activities under this
program are focused upon the built environment. However, the use of natural resources, in
relation to abstraction of water from either ground or surface sources, has both direct and indirect
impacts on other systems, especially natural resources. The other major area of focus is to be the
collection, treatment, and disposal of waste from WTPs. The third area of concern could be the
laying of pipelines and construction-related activities. Further complexity could be expected
given the nature of the program area, which includes hills, the terai, and eco-sensitive areas along
with periodic influx of floating populations that require the setting up of temporary WSS
infrastructure. Hence, systems and processes need to be in place to minimize any impacts that
may affect the environment adversely.
Strengths
(a) The government partner agencies involved have technical competencies, experience,
and knowledge in undertaking activities under the project, such as the development
and management of water supply, including laying pipelines.
(b) The World Bank has been working in the RWSS sector in the state for a long time
and has well developed environmental management systems, such as using ECoPs to
manage environmental concerns. Therefore, an understanding on environmental
safeguards is available, and technologies and systems to implement such projects
exist.
(c) Institutional systems and procedures for the management of water resources and
other related actions, including monitoring of systems, are present through the
existence of multiple agencies and their processes. Apart from SWAJAL, UJS, and
UJN, there are a number of other relevant agencies including the Ganga River Basin
Management Authority, Departments of Health, Forests, and Irrigation, the SPCB,
and the State Wildlife Board. At the implementation level, the Panchayati Raj
87
System also exists. Together, these and other departments ensure various activities
that either link direct activities, such as provision of domestic water, or indirect
activities, such as monitoring health, water quality, and capacity building, to
undertake complementary activities that support the implementation of activities
relevant to the project.
(d) There is a network of laboratories that monitor water quality—at source and during
supply at the domestic level, such as the laboratories of the UJS, STPs, SPCB, and
IIT Roorkee.
(e) Environmental regulatory frameworks are largely in place, with revisions presently
underway for discharge standards for treated wastewater and disposal of other waste,
that cater to existing conditions of water flows in riverine systems. There also exist
research, understanding, and processes for the management of the environment and
for ecologically sensitive areas.
(f) While the process to define ecologically sensitive areas/zones continues to be
updated, there already are well-defined ecologically sensitive areas within the
program. Therefore, implementing activities is likely to be easier as areas and
processes are in place.
Gaps, Inconsistencies, and Risks
(a) There are a large number of agencies working on the issues of water resource
management and environment-related concerns. These go beyond the WSS-related
agencies and, in many cases, with little interaction between the different agencies
and the implementing agencies, risking inadequate regulatory compliance and
environmental management. For example, while the Doon Valley eco-sensitive zone
has been in existence since 1989 and includes areas in peri-urban Dehradun and
Haridwar, there seems to be very limited knowledge on it.
(b) Extension of water systems may pose a concern in areas where habitations exist such
as in hills, around cultural resources, and densely populated areas. It may also
require permissions under various regulations, such as the Ancient Monuments and
Archaeological Sites and Remains Act of 1958, and may take time, which will need
to be accounted for in project planning.
(c) ECoPs from previous World Bank projects exist, but varying ground-level staff
capacities result in the implementation not being very consistent. For example,
varying knowledge and practice of chlorination of water before its distribution and
water quality monitoring. Also, challenges exist in execution, such as ensuring
source sustainability, where issues might be beyond the limits of the local
implementing agencies. Source sustainability may be an even greater challenge
where sources are dependent on groundwater.
(d) There are also likely to be new challenges to work in peri-urban areas. These include
rapidly rising populations and water demands reflective of urban areas, continuing
88
keeping of a few milch cattle and large gardens, and increasing population densities.
Existing water supply systems are not designed for such additional needs. Equally,
without adequate drainage and increased use of water, rising risk of vector diseases
and drains being connected to sewer systems may exist.
(e) Large floating population, mainly for religious purposes, exists in the Rishikesh-
Haridwar belt. This includes huge gatherings like the Kumbh Mela, with an
estimated 25 lakh people visiting on the second Shahi Snan on a single day.80
Temporary pipelines are laid within municipal areas for them, though such
arrangements are very limited to the kawaria gathering, who reside outside the
municipal limits and also gather in large numbers. It must also be noted that catering
to such large influxes as in the second Shahi Snan will always be a challenge.
Opportunities
(a) Given rising populations, and possible increasing challenges of water resource
sustainability, there are opportunities for creating appropriate conjunctive water
resource management systems and frameworks that cater to all areas and to upper
and lower catchments. This could be of importance in the longer time frame given
the high dependence on groundwater and increasing demand.
Core Principle 3
Environmental and social management procedures and processes are designed to protect public
and worker safety against the potential risks associated with (a) construction and/or operations
of facilities or other operational practices under the Program; (b) exposure to toxic chemicals,
hazardous wastes, and other dangerous materials under the Program; (c) reconstruction or
rehabilitation of infrastructure located in areas prone to natural hazards.
Applicability
This core principle is applicable largely to environmental management related actions. The
canvas of activities would contain construction of new systems, laying of pipelines including in
already existing habitations, and day-to-day management of water supply systems. Therefore,
risks exist both during construction. The risks maybe occurring both for those who are directly
involved in the activities, such as construction workers, and for the public depending on the
location of various activities. However, strong management systems are likely to minimize such
risks.
Strengths
(a) For the management of construction-related activities, the GoI has both regulations
and guidelines, which in conjunction with other regulations on waste management
and worker’s safety can ensure proper management of construction sites.
80 http://uttarakhandtourism.gov.in/utdb/?q=ardh-kumbh-mela-hardwar-2016 accessed May 25, 2016.
89
(b) Labour laws applicable to construction workers exist and are applied. Therefore,
construction workers are ensured and compensation is undertaken for any accident
that might exist.
(c) There has been a long working relationship between the World Bank and the clients.
Therefore, processes, procedures, and checks through the use of contractor clauses,
among others, are understood.
Gaps, Inconsistencies, and Risks
(a) Some construction can be envisaged as a part of the program activities such as
pipeline laying or the construction of other infrastructure. Any construction activity
in populated areas may result in construction-related risks to workers and also local
population where pipelines are laid, especially where pipelines are extended in
already inhabited areas. Possible concerns would include deep trenches in areas not
cordoned off from public or in hilly areas resulting in accidents, water collection in
trenches, accidental breakage of older sweage networks and mixing of sewage water,
and accidental electric shocks from breakages of underground power cables. Where
overhead tanks may be built there will be a need for scaffolding and therefore a risk
of accidents by falling.
(b) Overall management of systems is variable. Both community-managed and UJS-
managed water supply systems could be further strengthened, such as chlorination
and system repair and maintenance. In Haridwar, it was noted that a pumping station
along the river bed had been damaged in the 2013 Uttarakhand disaster, but is yet to
be repaired. Also, poor storage and management of sodium hypochlorite may result
in spillage and wastage. Equally, as was noted at a community-managed tube well
and distribution system and a UJS intake well, the public has access to the area and
risks damage to the system. Poor management of systems can also result in accidents
and injuries.
Opportunities
(a) There are a number of opportunities for creating and strengthening implementation,
capacities, and awareness. Knowledge and awareness on the proper management of
water supply systems and water disinfection can be strengthened. This may require
further strengthening to emphasize the need to (a) ensure proper disinfection—
before distribution and regular cleaning of the system, (b) ensure minimum contact
during disinfection and knowledge of safety precautions for handling the system,
and (c) ensure that public access is restricted to minimize damage to system or
injury.
(b) At construction sites, worker safety and availability of safety gear, procedures, and
plans for ensuring a safe construction site can be considered.
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Core Principle 4
Manage land acquisition and loss of access to natural resources in a way that avoids or
minimizes displacement and assists the affected people in improving, or at the minimum
restoring, their livelihoods and living standards.
Applicability
This core principle is mainly applicable for social management actions. Most land requirements
under the program will be of small-sized parcels and met through use of government or gram
panchayat land. It is unlikely that there will be any land acquisition. Further, the legal/regulatory
system and Policy in the state includes provisions for compensating for loss of assets and
rehabilitation of any affected people.
Usually very small pieces of land are required for the scheme related constructions, which could
be 10 square meters at the most and the Gram Panchayat (GP) land is available for this small
requirement of land. The Government or GP land will be free from all encumbrances related to
land acquisition and therefore will not pose any challenge. In any case, the social specialists
charged with overseeing the Program components should undertake a review of the land use
requirements under the project after completion of the first year, to assess the nature and scale of
land required-both common and private land-and then take a decision on the systems to be
adopted by the Program in future. The social risk screening measures recommended for the
program will also screen out interventions involving land acquisition. Program will also ensure
that the WB guidelines on voluntary donation (Annex 12) are implemented.
Some large infrastructure created for setting up pumping stations, CWRs, and OHTs may require
land for which government or panchayat land would be obtained as far as possible and priority
will be given to barren or un-productive government land for creation of w/s scheme related
infrastructure, and if this land is not available then village panchayat land will be taken up with
the community consultation. In the remotest possibility of government or GP land not being
available, the Program will be expected to obtain land through voluntary donations or outright
purchase and of private land. The existing systems of land donation are accountable, transparent
and safeguards the interests of marginalized communities. Social screening and consultative
process in the scheme planning will further help to mitigate any land related impacts.
Strengths
(a) Section 33 of the Uttarakhand Panchayat Act 1947 gives GPs the power to acquire
land by private negotiation or request the District Collector to acquire it on their
behalf, though this provision is rarely used; mostly, there are precedents of land
received as voluntary private donation to the GP. Where government land is
available within the panchayat, the GP passes a resolution allocating the land for a
specific purpose, informing the Revenue Sub-Division.
(b) The national legal-policy framework provides adequate safeguards and protection
against land acquisition and the resulting impacts on lives and livelihoods.
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Gaps, Inconsistencies, and Risks
(a) Peri-urban areas normally have dense habitation, high land prices, and limited
common lands. Since these targeted areas are not new settlements, and ownership of
land is mostly clear in these areas. All the more, it is the GPs’ responsibility for
identifying and making land available for the WSS schemes, but there are instances
where the GPs have refused to provide common land for constructing pumping
station because of limited land availability or its alternate uses. For example,
Mukhani GP (peri-urban area of Nainital District) requires new WSS schemes to
cover its entire population, but unavailability of appropriate common land and very
high land prices have delayed planning of the new scheme for the GP.
(b) There are also cases where Gram Sabha proposed a site for CWR or pump house,
but the DIA did not find it technically feasible to construct it on that location and
suggested an alternate private land, which was opposed by the Gram Sabha and the
land owner.81
Opportunities
(a) Use of government and/or common lands, and in remote possibility of voluntary
donations, or purchase of private lands through negotiated settlement would be the
most appropriate method to avoid acquisition and the resultant negative social
impacts. Priority will be given to barren or un-productive government land for
creation of infrastructure, and if this land is not available then village panchayat land
will be taken up through the community consultation.
(b) There are some good examples across the country on successful, participatory
resettlements with minimal loss to well-being and livelihoods that can be replicated.
Tender documents of all the DIAs should clearly spell out the Standard Operating
Procedures-SoPs to be adopted in case private land has to be acquired for executing
a scheme and should be strictly monitored.
Core Principle 5
Give due consideration to the cultural appropriateness of, and equitable access to, program
benefits, giving special attention to the rights and interests of the Indigenous Peoples and to the
needs or concerns of vulnerable groups.
Applicability
Access to water and sanitation services will improve well-being and also help in decreasing
health-related expenditure of vulnerable communities. However, there is a risk of exclusion of
the economically and socially vulnerable communities from WSS/sewerage schemes, because of
either their physical location or lack of economic access.
Better regulation, improved services (24×7) and management of drinking water supply, and
access to sewerage facilities will come at a price. Metering of consumption, fixing of volumetric
81 In case of Ufalda GP in Pauri Garhwal District.
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tariffs, and reduction of NRW mean that there will be greater emphasis on providing private
connection and improving the revenue collection of schemes for efficient O&M. This could lead
to the exclusion of female-headed households, vulnerable families, and the poorest of the poor
from such schemes because of their low paying capacity.
Strengths
(a) The state has a favorable policy environment that promotes consultative processes
and inclusive impacts of WSS schemes. Improved access to drinking water will help
in reducing drudgery for women, free up time for more productive engagements, and
help in improving access to education for the girl-children (who also help in
organizing water for the household). Because planning of schemes is mandated to be
consultative according to the NRDWP guidelines, due consideration is given during
habitation selection (prioritization) and scheme designing to time saving for women
folk. This helps in engendering impacts of the scheme and making them inclusive.
(b) Women are also represented in the UWSSCs (at least 30 percent) to ensure that their
interests are taken care of in decisions related to drinking water and sanitation
management. Likewise, the state policy also makes it mandatory to have at least 20
percent representation from vulnerable communities (SC/ST).
(c) There are provisions and DOs that allow for the relaxation of tariffs or differential
tariffs for communities considering their social and economic vulnerability. There
are also instances where tariffs have been temporarily abolished or relaxed by the
state for disaster-affected regions. In community-managed schemes or where tariff
collection is the responsibility of the GPs, they have the power to temporarily
exempt vulnerable families from paying water charges or fixing lower rates,
depending upon their paying capacity.
Gaps, Inconsistencies, and Risks
(a) Sometimes the design of the schemes excludes households on the periphery of
habitations or on mountain ridges, because of non-feasibility or to avoid high O&M
cost for all members. These areas are usually inhabited by socially vulnerable
communities who suffer in the interest of the larger community—as higher cost of
provisioning means higher operating costs, and hence higher water tariffs for the
entire community. This not only denies them the benefits of such interventions but
also sustains the drudgery, for removing which such programs were designed. As
observed at some locations (Thapaliya Mehra, Siloti Pani, and Chanoti GPs), the
compulsion of having to access unsafe sources and local springs in a government
water supply scheme suggests that there is scope for making them more inclusive.
(b) Inclusion of women in decision-making positions within the UWSSCs as
chairpersons, treasurers, or secretaries is limited though their overall representation
in the committees is according to policy.
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Opportunities
(a) Schemes need to be designed by prioritizing the needs of the most excluded to
ensure physical access to the WSS services; similarly, pricing of services needs to be
based not only on their O&M cost but also the community’s paying capacity.
Principle of equity needs to be applied to ensure that those who can, pay a higher
rate to cross-subsidize the poor, apart from the use of consumption slabs.
(b) Panchayats have the power to raise their own financial resources or use development
funds to meet the recurring O&M costs of schemes and also sometimes subsidize
costs for economically and socially vulnerable families.
(c) Community monitoring of the schemes either through a process of social audit or
through other approaches can ensure that the schemes are providing equitable
access.
Core Principle 6
Avoid exacerbating social conflict, especially in fragile states, postconflict areas, or areas
subject to territorial disputes.
Applicability
The area in question is not a conflict area; neither it is a fragile state. There are no such conflicts
or territorial disputes in the project area. Residents of peri-urban areas include natives, tenants,
urban settlers, and settlers from adjoining regions/upper hills. These regions also have big and
small institutions, commercial ventures, petty shops, eateries, and hotels/resorts. There is
likelihood of more cohesion and harmory rather than social tension among the old residents and
new settlers because the pattern of settlements is guided by the relations that the settlers carry
from their native places. As a result, collective action in such areas is not very challenging, and
could be achieved through social mobilization and continued engagement.
In addition, because these areas are in close proximity to cities/towns but fall in rural areas, it
may happen that under certain situations some rural-urban conflict may arise. There are
demonstrated examples in the past where such conflicts are amicably resolved through
consultations. And, thus these conflicts may not have sustained impact on the program
implementation and operation.
To mitigate this risk, the program focusses on strengthening monitoring and evaluation for
comprehensively capturing the impact, including grievance redressal and citizen feedback. This
will improve the ability of the GoUK to engage in participatory and consultative processes in the
WSS sector on a dynamic basis, including urban and rural linkages for addressing service
delivery issues of the peri-urban areas and reducing any situations of social conflict.
It is also recommended that formalized institutional mechanisms for resource use/sharing and
coordination between the rural and urban local bodies be established to mitigate the potential
social risk of triggering tension or conflict between rural and urban communities.
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A ‘Common Grievance Redress System’ for the entire WSS sector of the state- cutting across
implementing agencies, schemes and modalities is recommended. This will be important to
address any issues of social conflict, exclusion, and access etc.
Strengths
(a) Most WSS interventions in peri-urban areas under the program will have a
community-focused approach and involve the principles of inclusion and
participation. Program investments are likely to promote cohesion and develop a
common understanding about the need for improving collective access to sanitation
and drinking water.
(b) The program is likely to take off and build upon from the previous World Bank
support and guide the community through an intensive engagement, mobilization,
and capacity building to get the required support and ownership to avoid potential
conflicts.
Gaps, Inconsistencies, and Risks
(a) Lack of governance systems or previous experience of schemes/programs
specifically designed and implemented in peri-urban areas means that these are
largely untested waters. While the program is likely to create pathways for new
development interventions targeting peri-urban areas and generate vital learning for
future schemes, it will not have the benefit of learning from experiences.
(b) There are instances (though rare) within the state of rural communities opposing the
selection of their local drinking water source for an MVS (in Madhi GP, Tehri
Garhwal). Solutions and mechanisms for resolving such conflicts lie in strong
community mobilization and formalized benefit-sharing arrangements, wherever
possible.
Opportunities
(a) The stronger role of panchayats in planning, execution, and co-option of a wider set
of village-level stakeholders in the UWSSCs, to make it more representative of the
local interest groups, will help in ensuring strong participation and ownership.
(b) Similarly, metering of private connections, especially for institutional/non-domestic
consumers, should be complemented with water pricing based on average
consumption (higher the average consumption, higher the per unit water tariff) to
ensure adequate availability and equitable distribution of drinking water to all
habitations covered by the scheme.
(c) Because all sections of the community will need these basic services, which either
are not available currently or are being delivered suboptimally, it is expected that the
program will get the necessary community support for successfully implementing
the schemes.
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Program Activity Screening
The PforR financing does not support activities that may result in any major or irreversible
environmental impact or have significant adverse social consequences. All PforR operation
proposals are required to be screened for such adverse impacts at an early stage of preparation.
The tentative investment areas proposed under the Uttarakhand WSS Program for Peri-Urban
Areas have been classified below based on their potential environmental and social risks. This
screening has been done based on an examination of the type and scale of activities and their
potential likely impacts based on the analysis done in the previous sections of this ESSA.
Proposed Investments Environmental Risk
Potential Environmental Implications n.a. Low Medium High
Developing a state water
and sanitation policy
Risks to the system may exist due to
sustainability concerns from possible
future climate concerns, and may be a
challenge to address comprehensively.
However, to some extent exsitng ECoPs,
for source sustainability will address this
issue.
Strengthening planning
process for WSS programs
in peri-urban areas
Well planned, this may result in well
developed and management systems
providing potable water to consumers.
Creating and strengthening
capacities for implementing
WSS programs in peri-
urban areas
Inadequate attention to repeated learning,
affecting long-term infrastructure
sustainability and its management
Construction, rehabilitation,
augmentation, and
extension of existing water
supply systems in select
peri-urban areas
Poor construction site management, waste
disposal, and poor design resulting in
regulations not followed and accidents
Providing WSS services
through 24×7 supply and
establishing systems for
metering and volumetric
tariffs for NRW reduction
and improved cost recovery
in peri-urban areas
Inadequate IEC for new 24×7 customers
so water wastage and inadequate drainage
from excess resulting in increased vector
disease.
Supporting creation of new
service delivery models,
including public-private
partnership (PPP) options,
for improving water supply
services in peri-urban areas
Poor monitoring of private sector resulting
in poor services and management of
systems
Strengthening M&E,
including systems for
grievance redress and
citizen feedback for the
WSS sector
Inadequate capacity to monitor, therefore
monitoring week; narrow focus not
including proxy indicators like health,
therefore not always responsive
Overall Environmental Risks - Low to Moderate
Proposed Investments Social Risk Potential Social Implications
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n.a. Low Medium High
Developing a state water
and sanitation policy
Inclusive policy for providing equitable
access to WSS services/facilities will have
sustainable social impacts.
Strengthening planning
process for WSS programs
in peri-urban areas
Planning focused on participatory
approaches with larger community role of
planning and management will be
important for sustainability.
Creating and strengthening
capacities for implementing
WSS programs in peri-
urban areas
Trainings reinforcing the role of PRIs and
user committees while orienting other
stakeholders on social issues will lead to
culturally appropriate interventions.
Construction, rehabilitation,
augmentation, and
extension of existing water
supply systems in select
peri-urban areas
Water supply infrastructure not planned in
consultation with the community can
reduce positive social impacts and it may
inadvertely exclude vulnerable groups;
acquisition of any private land for creating
structures may impact social security and
livelihoods.
Providing WSS services
through 24×7 supply and
establishing systems for
metering and volumetric
tariffs for NRW reduction
and improved cost recovery
in peri-urban areas
Cost recovery mechanisms that are not
equitable or not planned in consultation
with community can led to the exclusion
of economically vulnerable households.
Supporting creation of new
service delivery models,
including PPP options, for
improving water supply
services in peri-urban areas
New service delivery models would need
to consider potential social impacts and
sustainability when developing
market/revenue-based solutions for
improved supply and services.
Strengthening M&E,
including systems for
grievance redress and
citizen feedback for the
WSS sector
Monitoring of equitable benefit sharing
across communities and creation of
simple, accessible, and responsive redress
systems will have positive social impacts.
Overall Social Risks - Low to Moderate
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Chapter 7: Recommendations and Program Action Plan
This section lists the high-risk activities that are proposed to be excluded from being supported
through investments under the proposed program. This is followed by the key environment and
social recommendations that need to be addressed to mitigate the risks or minimize their
impacts, in case such risks are inextricable from the program design. A set of environment and
social program actions are also proposed to address some of the major risks flagged through the
assessment.
Exclusion of High-risk Activities
The ESSA team recommends that the following activities be excluded from program support in
view of associated high environmental and social risks:
(a) Support the creation of large water supply schemes that entail land acquisition and
displacement of communities.
(b) Support the creation and development of water supply systems or the disposal of
wastes in national parks or wildlife sanctuaries.
(c) Undertake any activity that uses asbestos.
Environmental Recommendations
Analysis of activities planned under the program will have impacts on the environment, though
largely limited in scale. It is unlikely that there will be any major or irreversible impacts by a
well-designed and executed program. Equally, a well-designed and executed program will result
in reduction in pollution and ensuing environmental degradation and have a positive impact on
human health.
(a) Major environment concerns identified. The assessment identifies a number of
environment-related concerns. These include (i) yield testing, (ii) source
sustainability, (iii) drinking water quality management though chlorination; (iv)
OHS during construction and system management, and (v) need for screening and
management actions by using ECoPs, many of which would already exist. It is
understood that ECoPs previously developed will continue to be used for the
planned peri-urban project in Uttarakhand. These ECoPs are given in annex 7, 8 and
9. Along, with the ECoPs, there will be a need to monitor water quality and yield
and to take required source strengthening activities, such as recharge where required.
The exising monitoring schedule of six months should be continued and the
monitoring format, as given in annex 9, will continued to be used for this program.
(b) Program execution and design issues. Program implementation and design are
dependent upon those in charge of planning and management activities in the
departments. The UJS and UJN, as focal agencies for WSS and sewage, have
experience to design and implement projects in the sector, but have a technical-
engineering focus. Therefore, environment-related actions may not be adequately
98
addressed, because these concerns may not always be a part of the planning and
design process. Furthermore, because of inherent complexities in the area such as
from eco-sensitive zones and regulatory constraints such as from EPA 1986,
designing and planning of the program may in some areas be complex. Hence, some
other areas identified for further strengthening are (i) metering and use of slab rates
and other demand management actions to rationalize water consumption and (ii)
addressing disaster vulnerability of infrastructure because of location - such as along
river banks though appropriate design and management actions.
(c) Capacities to design and implement. While capacities exist to identify and design
and develop water supply systems, everyday management is variable and dependent
upon individuals. Not all postconstruction management staff and systems have
similar capacities and understanding. Also, previous World Bank-supported projects
were focused on rural water supply and IHHLs, mainly for small schemes. The
planned program will cater to peri-urban areas with higher population densities and
larger schemes. This may require further strengthening of capacities and
development of guidelines or ECoPs for environmental management. Areas for
further capacity enhancement include (i) day-to-day management and running of
water supply schemes to ensure chlorination and undertake small maintenance
activities and (ii) management of groundwater run schemes that includes recharge
and aquifer identification and management, including using the NRDWP guidelines
for identification and management of aquifers including their monitoring to ensure
aquifer health both with regard to quality and availability.
(d) Ensuring regulatory compliance. Regulatory needs, such as forest department
clearances for access to sources in forest lands, are regularly addressed. However,
there are other regulations that may also need to be addressed such as the NRGBM
Bill, which is to cover all of the program areas, regulations on eco-sensitive zones
that will cover part of project area, and regulations on construction and demolition
waste. Therefore, a checklist for the DPR development and postconstruction
monitoring to adhere to regulations would be of value to activities under the project.
(e) Waste management: As there will be some waste, such as empty containers, oil
waste, batteries and sludge there is a need for a proper waste disposal system to be
put in place. Therefore, a proper waste management system needs to be
implemented. In order to do this, there is a need to ensure all waste management
regulations available should be used. Where state level regulations are not available,
national regulations for the management and disposal of waste should be used.
These are outlined in the section discussing regulations of this ESSA. The
implementing agencies need to therefore pepare required guidelines and waste
management systems to be used while preparing DPR’s, during construction and
during the O&M phase of the project. These guidelines should identify required
regulatory needs to ensure compliance and also monitor implementation of the waste
management system.
99
(f) Addressing OHS. While construction clauses are supposed to exist in construction
contracts, actual implementation OHS can be stengthened. While there is no need
for labour colonies as all labour hired is local, as work will include laying of
pipelines within settlements, good safety mechanisms such as restricting acces to
public where trenching is taking place; prior to starting any digging activity
identifying other utility pipelines and ensuring there is no breakage, and safety for
any scaffolding activities for construction workers. Also, construction site
monitoring needs to be strengthened to ensure that required site safety measures are
in place.
(g) Minimising disturbance to wildlife during construction: As some of these areas
will be in eco-sensitive zones and wildlife movement may be expected, there is a
need to insure minimum disturbance to wildlife in the area. An ECoP has been
developed and is available in annex 10 to address the issue
(h) Other areas for further action. There are some areas that may be outside the
immediate purview of this program but can increase benefits of the outcome. These
are (i) coordination with other departments to improve drainage and work toward
ways to reduce concretization, which is often associated with urbanization and will
impact aquifer recharge and create urban flooding; (b) RWH system and guidelines
for design and management of system; and (iii) demand management to rationalize
water consumption among consumers.
Environmental Program Actions
There are a number of areas, as discussed earlier, that should be considered to address all major
environment-related issues identified through the assessment. However, there are a few key
issues that are suggested here that could be included as a part of specific program actions to
ensure that all key areas of concern for environmental management are addressed. These are as
follows:
Action Timeline Responsibility Completion Measurement
Strengthning an OHS
system for construction
management
Through
program life,
starting within
six months of
program start
UJN/UJS/private
sector
OHS in place and used at construction
sites; workers use safety gear regularly
and properly.
Developing a water
supply system that
ensures water quality
and source sustainability
Through
program life,
starting with
initiation of
sewage-based
interventions
under the project
UJS and, where
community is
involved, the
community
Capacity of the UJS pump operators
and system managers strengthened to
ensure chlorination systems are in
place and working and an overall
reduction in NRW. Creation of
guidance note in local language to
ensure chlorination and monitor and
manage the system to ensure its proper
management by implementing
authority, which should be available at
the pumping well for operator’s
reference.
100
Action Timeline Responsibility Completion Measurement
Use of existing ECoPs and guidelines
for aquifer recharge and monitoring to
ensure groundwater levels are
maintained
Social Recommendations
(a) Strengthen the role of panchayats and community institutions. The program
aims to create accountable, inclusive, and improved WSS schemes for select peri-
urban areas of the state in which the role of the local bodies and user groups will be
critical for success and sustainability. A strong and central role for panchayats and
user groups in actual implementation of schemes (across implementing agencies)
will be crucial for ensuring equitable distribution of benefits and access. The state
already has a precedent in the form of the SWAp, which needs to be further
strengthened and universalized for schemes in peri-urban areas. Learnings from past
projects need to be fed into the design of current support to ensure more
representative and strong user committees.
(b) Promote citizen’s engagement for inclusive and equitable benefit sharing. Peri-
urban societies are highly fragmented and represent diverse interests and priorities,
some of which may be opposed. The poor governance structures, weak social fabric,
and partial community mobilization (leaving behind some interest groups) in these
areas add to the complexity of the program environment. Intensive and sustained
social mobilization will need to be employed to ensure engagement with all social
and political interest groups for getting their collective ownership. Because the
program intends to work on service-level efficiency through better O&M and
improved cost recovery, it is important that this diverse set of community-level
stakeholders is involved right from planning and design phase for positive,
sustainable impacts and scheme viability.
(c) Strengthen STIs on WSS sector. While there are a number of state-based CSOs
with substantive experience on social capacity development around the WSS sector,
it is important that the state improves its in-house capacities for delivering such
large-scale trainings. The only STI currently providing regular trainings to the DIAs
and community stakeholders is the Uttarakhand Academy of Administration,
Nainital - the State Key Resource Center. It also has the responsibility of supporting
other states. SWAJAL Pathshala, proposed as part of the previous World Bank
support, and which is currently being operationalized, will hopefully become the
dedicated STI on rural WSS and develop capacities for addressing the unique needs
of peri-urban areas. Because capacity-building mandate of the state is huge, it will
be important that the Pathshala partners with STIs such as the State Institute of
Rural Development (SIRD) and the Panchayat Training Centers (PTCs) to deliver
such training on a scale well beyond the period of program support.
(d) Create common grievance redress systems for WSS sector. While some DIAs,
such as the UJS, have robust GRMs in place, other agencies lack similar
101
mechanisms. It is important to have ‘Common Grievance Redress System’ for the
WSS sector cutting across agencies, schemes, and modalities. This will be important
to address exclusion, service quality, and access. Such mechanism needs to be user-
friendly, simple, and accessible with a complete feedback loop, which redresses
grievances and informs complainants about the action before closing it. Analysis of
the typology of complaints received and status on complaints received and redressed
should be available in public domain for greater transparency and for building trust
about the mechanism. A likely way forward could be to build upon the grievance
redress system currently deployed by the UJS and adding features for offline and
online complaint registration and dashboards providing analysis of complaints
received, handled, and closed.
(e) Formalize systems for community monitoring. To ensure that benefits of WSS
services are inclusive and participatory and provide equitable access, it is important
to establish a system of community monitoring. This will not only help in
reinforcing community engagement but will also be an effective strategy for
developing community ownership across the different interest groups. Periodic use
of social audit (or any other community monitoring tool) will help in ensuring
equity, access, and representation of the diverse stakeholders that coexist in peri-
urban areas and also act as a platform for articulating a cohesive opinion.
(f) Create sustained social capacities within the DIAs at the state and district
levels. Technical staff of the DIAs need to be provided sustained training on social
issues so that incorporating aspects such as participation, inclusion, ownership, and
transparency become a practice. Repeated trainings and refreshers of technical staff
will help in inculcating sensibilities to appreciate the strengths of participation and
community ownership for sustainability of schemes. In addition, it is also important
to deploy staff with social and community development skills within these agencies
to mainstream community-focused approaches. With all major flagships on water
and sanitation promoting community-based models of implementation, it will help
the DIAs in modifying their approach. Human and technical resources available with
the WSSO (NRDWP) and now the SWAJAL Pathshala could be used for sustaining
such capacities.
(g) Improve coordination and information sharing among agencies. Different
modalities of functioning and low coordination among agencies affect the outcomes
of schemes. Practical coordination and information sharing in the field that goes
beyond the mandatory coordination/sharing that happens through state- and district-
level committees or forums will help in delivering more efficient services to the
community. Learning from the SWAp, it will also help in more streamlined and
accountable implementation.
(h) Avoid land acquisition and minimize related adverse impacts. Though the upcoming
program aims to develop large MVSs that require small parcels of land, the program should
avoid land acquisition at all costs and all requirements of land be met through government or
102
GP land. Further, the legal/regulatory system and Policy in the state includes provisions for
compensating for loss of assets and rehabilitation of any affected people. The existing
systems of land donation are accountable, transparent and safeguards the interests of
marginalized communities. The social specialists charged with overseeing the Program
components should also undertake a review of the land use requirements under the project
after completion of the first year, to assess the nature and scale of land required-both
common and private land-and then take a decision on the systems to be adopted by the
Program in future. Program should also ensure that the WB guidelines on voluntary donation
(Annex 12) are implemented
(i) Avoiding potential rural-urban conflicts by institutionalizing joint arrangements.
Implementing programs in peri-urban areas means that there will be continuous sharing of
resources and services between rural and urban areas. It is possible that the ULBs will
provide water supply services to their rural/peri-urban counterparts, while the RLBs will
offer water sources for urban water supply schemes, whereas in the state UJS is responsible
for both ULBs & RLBs. Unless formalized coordination mechanisms are established between
the RLBs and ULBs, there is potential social risk of conflicts getting triggered between rural
and urban communities.
To avoid these risks, the program focusses on strengthening monitoring and evaluation for
comprehensively capturing the impact, including grievance redressal and citizen feedback.
This will improve the ability of the GoUK to engage in participatory and consultative
processes in the WSS sector on a dynamic basis, including urban and rural linkages for
addressing service delivery issues of the peri-urban areas and mitigate any situations of social
conflict. The program also envisages IEC and social mobilization in the peri-urban areas and
support capacity building of various program stakeholders, including the community for
facilitating greater ownership.
It is also recommended that formalized institutional mechanisms for resource use/sharing and
coordination between the rural and urban local bodies be established to mitigate the potential
social risk of triggering tension or conflict between rural and urban communities.
(j) Social risk screening mechanism. As envisaged, the proposed program will also include
large MVSs. To avoid potential social impacts associated with site selection for water supply
systems and to ensure that program benefits are accessed by all, it will be important for the
program to develop social risk screening systems for all large-scale interventions. The social
risk screening mechanism will ensure that the interventions/ schemes do not create high risks.
Such screening mechanisms should consider social and livelihoods impacts of site selection
and also community acceptance/concurrence to interventions and assess benefits to
vulnerable, SC, ST, and women-headed households as part of recommendations to inform the
intervention design. A detailed matrix will be developed and administered for each
intervention to assess the schemes on different parameters. Any intervention with a high risk
score should be dropped.
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Social Program Actions
Key Program Actions Responsible Party Proposed Timeline and Activities
Develop procedures for social risk
screening for sites selection and for
assessing likely impacts
DDW, GoUK,
SWSM
Year 1 (First half): Develop indicators and
procedures for risk screening measurement and
verification.
Year 1 (Second half): Test and roll out
implementation of the screening framework.
Establish a Comprehensive Grievance
Redress System for the WSS sector
DDW, GoUK,
SWSM
Year 1: Decision on nature of GRM platform,
design of process flow, and development of
statewide GRM system for the WSS sector
Year 2: Rollout of GRM and periodic public
disclosure of analysis of grievances handled and
resolved
Create sustained social capacities
within the DIAs and systems for
community monitoring
DDW, GoUK, UJN,
UJS, SWAJAL PMU
Year 1: Identify social capacity required, prepare
Terms of Reference, and initiate recruitment
Year 1: Select community monitoring approach to
be used and undertake preparatory trainings.
Year 2 (First half): Full deployment of human
resources with social development skills.
Year 2: Initiate use of community monitoring
systems in all schemes.
104
Annexes
Annex 1: List of People Consulted and Places Visited
Dates: March 18–19, April 11–15, May 2–8, 2016
Level Name Organization
State level Mr VK Sinha SWSM/SWAJAL PMU
Mr Shailendra Singh Bisht SWAJAL PMU
Mr Vadoni SWAJAL PMU
Mr PC Kimoti UJS
Ms Neelima Garg UJS
Mr Mukul Sinha UJN
Ms Neelima Garg UJS
Mr Umesh Naudiyal UJN
Mr Dhananjay Mohan Sharma, CCF Wildlife Forest Department, Uttarakhand
Mr. Gambir Singh, CCF Department of Forest,
Uttarakhand
Dr. Oberoi, Senior Scientist State Pollution and Control
Board
Mr. A K Sexena, SE Namami Ganga
Dr. SMA Hussain, Senior Scientist Wildlife Institute of India
Dehradun
District
Mr Sudhir Kumar Astt. Engg, Mr Anil Sharma Junior
Engg.
UJN Sahaspur Block
Mr AP Singh AE UJS Sahaspur
Mr Pawan Arya NGO - SHRADHA
Mr Chauhan Dehradun Municipal
Corporation
Mr Nilesh Kaushik NGO-HIHT
Mr Vadhoni SWAJAL DPMU
Mr SS Yadav, Sanitary Inspector Dehradun Municipal
Corporation
Mr R Bahuguna, Sanitary Inspector Dehradun Municipal
Corporation
Mr Khushiram Dobal, Senior Health Officer Dehradun Municipal
Corporation
Ms Navneet Ghildiyal APO DRDA
Mr. Ajay Kumar UJS
Mr Kakkar Private Sewerage operator
Pauri District Mr Praveen Saini-EE Pauri UJS
Mr Naval Kumar AE- Pauri UJN
Ms Lipika Kavi AE Srinagar UJN
Mr RK Nautiyal, Engineer SWAJAL DPMU
Mr Puran Singh CDS SWAJAL DPMU
Ms Sulekha Pokhriyal, H&HS SWAJAL DPMU
Mr Prakash Chandra CDS SWAJAL DPMU
Mr Pramod Kumar SWAJAL DPMU
Mr Anil K Dhondiyal SWAJAL DPMU
105
Level Name Organization
Mr Arvind Singh SWAJAL DPMU
Mr Vijay Prakash Gairala SWAJAL DPMU
Mr BP Juyal, President NGO - Parivartan
Mr Sohan Singh Jethuri, JE Srikote UJS
Mr Shambhu Prasad Bhatt, Mr Kaitheth VS Garhwali Govt. Medical
College
Mr VK Jain AE-Srinagar UJN
Nainital
District
Mr Pramod Tewari-DPM SWAJAL DPMU
Dr Yogendra Bisth Uttarakhand Academy of
Administration,
Mr KS Bisth AE Bhimtal UJN
Mr Devesh Pant JE Bhimtal UJN
Mr Prashant Singh Thapa Traveller’s Paradise (Resort),
Chanoti GP
Mr BC Pal AE Bhimtal UJS
Mr Parihar JE Bhimtal UJS
Mr Rakampal Singh EE-Haldwani UJN
Mr RP Dobwal- AE Haldwani UJN
Mr DC Joshi - AE Haldwani UJN
Mr Joshi - AE Haldwani UJS
Mr DK Pant - AE Bhimtal UJN
Mr SK Upadhyaya- SE Haldwani UJS
Mr Lalit Mohan Pande AE UJS
Mr Vasheshwar Bhatt AE UJS
Mr Deepak Tewari SWAJAL DPMU
Mr NK Khandpal SWAJAL DPMU
Mr Hemant Tewari SWAJAL DPMU
Mr DS Rawat-AE UJN
Mr BK Pant-EE UJN
Mr BD Bhatt AE UJS
Mr. Ram Kishor, Sewer Mistry and Jetting Machine
Operator
UJS
Mr Ashok Singh JE- Sewage UJS- Rishikesh
Mr Dugal Singh, STP 18 MPLD UJS- Rishikesh
Mr Uday Veer Singh, STP 18 MPLD UJS Rishikesh
Mr Pradep Chauhan, In-charge STP laboratory ULP Engineers Consortium
Limited Plant, Rishikesh
Mr Mohit, Plant Operator, STP 18 MPLD UJS Rishikesh
Priyank Baloni, J.E. STP 18 MPLD UJS Rishikesh
Chavan Singh, Pump Supervisor, STP UJS Rishikesh
Bajrang Bali Sharma, Pump Operator, STP UJS Rishikesh
Jaswant Singh, Pump Operator UJS Rishikesh
Madan Singh Sen, JE, Zone III Jwalapur UJS Rishikesh
District
Dehradun
Poorn Singh Pawar
Sulochana Mangal
Ramidevi Mangal
Suman Pawar
Bhim Singh Pawar
Village - Domgaon
Dheer Singh Allakhfarm GP
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Level Name Organization
Sher Singh Bhamiyawala GP
Chaman Nath Sapera Basti, Bhamiywala GP
Gajendra Singh Rawat, Rajeev Singh, Shyam Singh
Rawat
Jolly Grant Village
Ms Manju Dobal, Mr Suresh Dobal Athoorwala GP
Kamlesh Pal Swargashram, Rishikesh
Nainital
District
Pradhan-Himmatpur Mallah
Pradhan- Bhagwanpur Jaisingh
Mr BS Aswal
Himmatpur Mallah GP
Ms Shabana Faraz Gaujajali GP
Pradhan Mukhani GP
Mr Lalit Mehra -Pradhan, Mohan, Asha Joshi Thapaliya Mehra GP
Mr KK Bhatt, Pradhan Chanoti GP
Mr Devendra Karnatak, Pradhan Saloti Pani GP
Mr Amit, Manager Gaula STP Brisanzia Technologies Pvt Ltd
Ms Bhagirathi Devi, Pradhan Maanpur GP
Mr Rawat, Owner Hotel Natural Bhujiya Ghat
Pauri Garhwal
District
Arjun Singh, Raghunath Singh, Lakshman Singh,
Jhumpa Devi, Shashi Devi, Shankar Singh Rawat
Markhoda GP
Tehri/Pauri
District
Devendra Bhandari, Devendra Bhandari, Jai Kishen
Bhatt, MP Ghildiyal, Arvind Bhatt
Chauras, Madhi, Thapli, and
Sankron villages
Mohan Prasad Maikuli
Dalit hamlet - Roshni Devi, Ramesh Lal, Bindra Devi,
Beera Devi, Chandrakalan
Srikote
107
Annex 2: Checklist for the Social Assessment
State Level
National/State Acts, Policies, Regulations, GOs on implementation of water- and
sanitation-related schemes.
Information on any state schemes on WSS—design, implementation mechanisms.
Institutions involved in the implementation of the WSS programs in the state.
Organisation structure, mandate, and implementation arrangements of the three
major institutions on the WSS in the state—SWAJAL, UJS, UJN—including their
systems for planning, implementation and monitoring, role of community
institutions/PRIs/municipalities in planning, monitoring, or O&M.
Composition and functioning of the SWSM for implementation of the SBM.
Status of implementation of major schemes – the NRDWP, SBM, and
AMRUT/JNNURM.
Major challenges in the implementation of schemes in urban/peri-urban/hilly areas.
Interagency coordination and information sharing
(UJS/UJN/SWAJAL/SWSM/DDW/Department of Rural Development/Department
of Urban Development).
Mandated role of the PRIs in the water and sanitation sector in the state.
Nature and mandate of village institutions created for Water-Sanitation—
composition, powers, functions, and linkages with the PRIs.
Extent of decentralized development planning and role of local bodies in the
planning process.
State-supported initiatives for promoting community management and monitoring of
the WSS schemes.
Civil society-supported initiatives/examples on community management of the WSS
schemes.
Policies on accountability and citizen engagement—social audit, grievance redress.
Nature of capacities at the state level to address social and community issues.
State strategies on capacity building, communication, behavior change on the WSS.
State-based training institutions providing capacity building inputs on the WSS-
mandate, types of trainings, nature of participants, training content, and annual
training calendars.
108
District/Block Level
Key institutions at the district and block level.
Role, functions, and constitutions of the DWSC/DWSM.
Data on the WSS coverage and status and key issues and challenges in
implementation.
District-level initiatives on outreach, planning, implementation, and community
engagement.
Annual planning process of different agencies—habitation targeting and
prioritization criteria adopted.
Functioning of district-level grievance mechanisms including the helplines, weekly
public hearings, and right to services, and so on.
Interagency coordination and planning process at the district and block level.
Engagement with the elected leaders and members of district/block panchayats and
municipalities.
Scheme specific data on the WSS—RWSS/Urban WSS, SBM—coverage, gap,
annual plans, key issues, and challenges in the district.
Nature of capacities at the district and block level to address social issues.
Panchayat/CT /Peri-urban Area/Community Level
Nature of the WSS schemes in the locality—not covered/partially covered.
Agency involved in the implementation of the WSS—UJS/UJN/SWAJAL.
Specific steps in the planning of schemes (single village/multi-village)—adopted by
the implementing agency (pre-feasibility, design outlay, community mobilization
and involvement, source selection, O&M).
Nature of community involvement in planning, site-selection, design inputs, O&M,
and management of O&M funds in the Gram Nidhi.
Community perspective on the design, implementation, and adequacy of the
schemes, with regard to provisioning of water supply and septage.
Role of community/PRIs after handover of schemes and nature of support extended
by the implementing agency post-handover.
Capacity building provided to elected representatives on the WSS issues—formal
trainings.
109
Role and mandate of the Village Water and Sanitation Committees- VWSC—
functioning and capacities.
Role and nature of involvement of civil society (especially, SWAJAL implemented
project)
Systems for monitoring—community-led as well as third party.
Extent of use of GRMs like Right to Information, helpline, other mechanisms and
their effectiveness.
110
Annex 3: Activities Permitted, Regulated, and Prohibited in Eco-Sensitive Zones, General
Guidelines
While some of the activities could be allowed in all the eco-sensitive areas, others will need to be
regulated/prohibited. However, which activity can be regulated or prohibited and to what extent
would have to be PA specific. A broad list of activities (this may need supplementation) that
could be allowed, promoted, regulated, or prohibited is given in the table below.
Activity Prohibited Regulated Permitted Remarks
Commercial mining Y Regulation will not prohibit the
digging of earth for
construction or repair of houses
and for manufacture of country
tiles or bricks for housing for
personal consumption.
Felling of trees Y With permission from
appropriate authority
Setting of saw mills Y
Setting of industries causing
pollution (water, air, soil, noise,
and so on)
Y
Establishment of hotels and
resorts
Y According to approved master
plan, which takes care of
habitats allowing no restriction
on movement of wild animals
Commercial use of firewood Y For hotels and other business-
related establishments
Drastic change of agriculture
systems
Y
Commercial use of natural water
resources including groundwater
harvesting
Y According to approved master
plan, which takes care of
habitats allowing no restriction
on movement of wild animals
Establishment of major
hydroelectric projects
Y
Erection of electrical cables Y Promote underground cabling
Ongoing agriculture and
horticulture practices by local
communities
Y However, excessive expansion
of some of these activities
should be regulated according
to the master plan.
RWH Y Should be actively promoted
Fencing of premises of hotels
and lodges
Y
Organic farming Y Should be actively promoted
Use of polythene bags by
shopkeepers
Y
Use of renewable energy sources Y Should be actively promoted
Widening of roads Y This should be done with
proper EIA.
Movement of vehicular traffic at
night
Y For commercial purpose
Introduction of exotic species Y
Use or production of hazardous
substances
Y
111
Activity Prohibited Regulated Permitted Remarks
Undertaking activities related to
tourism like overflying the
National Park area by any
aircraft or hot-air balloon
Y
Protection of hill slopes and river
banks
Y According to the master plan
Discharge of effluents and solid
waste in natural water bodies or
terrestrial areas
Y
Air and vehicular pollution Y
Sign boards and hoardings Y According to the master plan
Adoption of green technology for
all activities
Y Should be actively promoted.
112
Annex 4: Doon Valley Eco-sensitive Zone, Its Boundaries, and Allowed Activities
Boundaries of Doon Valley Eco-sensitive Zone. On the north by Mussoorie ridge, in the north-
east by Lesser Himalayan ranges, on the south-west by Shivalik ranges, River Ganga in the
south-east, and River Yamuna in the north-west. Activities may be restricted, - except those that
are permitted by the Central Government after examining the environmental impacts:
Categorization of Industries
Guidelines for Permitting/Restricting Industrial Units in the Doon Valley Area
Industries are classified under Green, Orange, and Red categories for the purposes of
permitting/restricting such industrial units in the Doon Valley from environmental and ecological
considerations. The industries are listed below.
Category Green
(a) List of industries in approved industrial areas, which may be directly considered for
issue of NoC without referring to the MoEF (in case of doubts, reference will be
made to the MoEF):
(i) All such non-obnoxious and non-hazardous industries employing up to 100
persons. The obnoxious and hazardous industries are those using inflammable,
explosive, corrosive, or toxic substances.
(ii) All such industries that do not discharge industrial effluents of a polluting
nature and that do not undertake any of the following processes:
Electroplating Galvanizing Bleaching
Degreasing Phosphating Cooking of fibers and
digesting and desizing of
fabric
Dyeing Pickling, tanning, and polishing Unhairing, soaking, deliming,
and bating of hides; washing
of fabric
Trimming, pulling, juicing, and
blanching of fruits and vegetables
Washing of equipment and regular floor
washing; using of considerable cooling
water
Separated milk, buttermilk,
and whey
Stopping and processing of grain Distillation of alcohol, stillage, and
evaporation
Slaughtering of animals,
rendering of bones, and
washing of meat
Juicing of sugarcane, extraction of
sugar, filtration, centrifugation, and
distillation
Pulping and fermenting of coffee beans Processing of fish
Filter backwash in D.M. plants
exceeding 20 kL per day capacity
Pulp making, pulp processing, and
papermaking; coking of coal and washing
of blast-furnace flue gases
Stripping of oxides
Washing of used sand by hydraulic
discharge
Washing of latex and so on Solvent extraction
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(iii) All such industries that do not use fuel in their manufacturing process or in any
subsidiary process, and which do not emit fugitive emissions of a diffused
nature.
Industries not satisfying any one of the three criteria are recommended to be
referred to the MoEF.
The following industries appear to fall in non-hazardous, non-obnoxious,
and non-polluting category, subject to fulfilment of the above three
conditions:
Atta-chakkies Rice millers Iceboxes
Dal mills Groundnut decortinating (dry) Chilling
Tailoring and garment making Apparel making Cotton and woolen hosiery
Handloom weaving Shoe lace manufacturing Gold and silver thread and sari
work
Goldsmithry and silversmithing Leather footwear and leather products,
excluding tanning and hide processing
Manufacture of mirror from
sheet glass and photo frame
Musical instruments manufacturing Sports goods Bamboo and cane produce, only
dry operations
Cardboard and paper production
(paper and pulp manufacturing
excluded)
Insulation and other coated papers
(paper and pulp manufacture excluded)
Scientific and mathematical
instruments
Furniture (wooden and steel) Assembly of domestic electrical
appliances
Radio assembling
Fountain pens Polythene, plastic, and polyvinyl
chloride goods through
extrusion/molding
Surgical gauges and bandages
Railway sleepers (only concrete) Cotton spinning and weaving Rope (cotton and plastic)
Carpet weaving Assembly of air coolers Wires and pipes - extruded
shapes from metals
Automobile servicing and repair
stations
Assembly of bicycles, baby carriages,
and other small non-motorized vehicles
Electronics equipment
(assembly)
Toys Candles Carpentry - excluding saw mills
Cold storage (small scale) Restaurants Oil-ginning/expelling (non-
hydrogenation and no refining)
Ice cream Mineralized water Jobbing and machining
Manufacturing of steel trunks and
suit cases
Paper pins and u-clips Block making for printing
Optical frames
Category Orange
(b) List of industries that can be permitted in the Doon Valley with proper
environmental control arrangement.
(i) All such industries that discharge some liquid effluents (below 500 kL per day)
that can be controlled with suitable proven technology.
(ii) All such industries in which the daily consumption of coal/fuel is less than 24
mt per day and the particulars emissions from which can be controlled with
suitable proven technology.
114
(iii) All such industries employing not more than 500 persons.
(iv) The following industries with adoption of proven pollution control technology
subject to fulfilling the above three condition fall under this category:
Lime manufacture - pending decision on proven
pollution control device and Supreme Court's
decision on quarrying
Ceramics Sanitary ware
Tires and tubes Refuse incineration (controlled) Flour mills
Vegetable oils including solvent-extracted oils Soap without steam boiling
process and synthetic detergents
formulation
Steam generating plants
Manufacture of office and household equipment
and appliances involving the use of fossil fuel
combustion
Manufacture of machineries and
machine tools and equipment
Industrial gases (only
nitrogen, oxygen, and
carbon dioxide)
Miscellaneous glassware without involving the
use of fossil fuel combustion
Optical glass Laboratory ware
Petroleum storage and transfer facilities Surgical and medical products
including prophylactics and latex
products
Footwear (rubber)
Bakery products, biscuits, and confectioneries Instant tea/coffee; coffee
processing
Malted food
Manufacture of power-driven pumps,
compressors of refrigeration units, firefighting
equipment, and so on
Wire drawing (cold process) and
bailing straps
Steel furniture, fasteners,
and so on
Plastic processed goods Medical and surgical instruments Acetylene (synthetic)
Glue and gelatin Potassium permanganate Metallic sodium
Photographic films, papers, and photographic
chemicals
Surface coating industries Fragrances, flavors, and
food additives
Plant nutrients (only manure) Aerated water/soft drink
Note:
Industries falling within the above identified list shall be assessed by the SPCB and
referred to the Union Department of Environment for consideration, before
according NoC.
The total number of fuel burning industries that shall be permitted in the valley will
be limited by 8 tons per day of sulfur dioxide from all sources. (This corresponds to
400 tons per day of coal with 1 percent sulfur).
Siting of industrial areas should be based on sound criteria.
Category Red
(c) List of industries that cannot be permitted in the Doon Valley.
(i) All those industries that discharge effluents of a polluting nature at the rate of
more than 500 kL per day and for which the natural course for sufficient
dilution is not available, and effluents from which cannot be controlled with
suitable technology.
(ii) All such industries employing more than 500 persons per day.
115
(iii) All such industries in which the daily consumption of coal/fuel is more than 24
mt per day.
(iv) The following industries appear to fall under this category covered by all the
points as above:
Ferrous and nonferrous
metal extraction, refining,
casting, forging, alloy
making process, and so on
Dry coal processing/mineral processing industries
such as ore sintering beneficiation, palletization,
and so on
Phosphate rock processing
plants
Cement plants with
horizontal rotary kilns
Glass and glass products involving use of coal Petroleum refinery
Petrochemical industries Manufacture of lubricating oils and greases Synthetic rubber manufacture
Coal, oil, wood, or nuclear-
based thermal power plants
Vanaspati and hydrogenated vegetable oils for
industrial purposes
Sugar mills (white and
khandasari)
Craft paper mills Coke oven byproducts and coal tar distillation
products
Alkalis
Caustic soda Electro thermal products (artificial abrasives,
calcium carbide, and so on)
Phosphorus and its compounds
Acids and their salts
(organic and inorganic)
Potash Nitrogen compounds
(cyanides, cyanamides, and
other nitrogen compounds)
Explosive (including
industrial explosives,
detonators, and fuses)
Phthalic anhydride Processes involving chlorinated
hydrocarbon
Chlorine, fluorine, bromine,
iodine, and their compounds
Fertilizer industry Paper board and straw boards
Synthetics fibers Insecticides, fungicides, herbicides, and pesticides
(basic manufacture and formulation)
Coke making, coal
liquefaction, and fuel gas
making industries
Basic drugs Alcohol (industrial or potable) Leather industry including
tanning and processing
Fiber glass production and
processing
Pigment dyes and their intermediates Paints, enamels, and varnishes
Manufacture of pulp-wood,
pulp, mechanical or
chemical (including
dissolving pulp)
Industrial carbons (including graphite electrodes,
anodes, midget electrodes, graphite blocks,
graphite crucibles, gas carbons, activated carbon,
synthetic diamonds, carbon black, channel black,
lamp black, and so on)
Cement with vertical shaft kiln
technology pending
certification of proven
technology on pollution control
Polypropylene Polyvinyl chloride Polishes
Chlorates, perchlorates, and
peroxides
Synthetic resin and plastic products Electrochemicals (other than
those covered under alkali
group)
116
Annex 5: Protected Areas of Uttarakhand Sl.
No. Name of the PAs
Year of
Establishment
Area
(km2) District
E Corbett NP 1936 520.82 Nainital, Pauri Garhwal
2 Gangotri NP 1989 2,390.02 Uttarkashi
3 Govind NP 1990 472.08 Uttarkashi
4 Nanda Devi NP 1982 624.60 Chamoli
5 Rajaji NP 1983 820.42 Dehradun, Pauri Garhwal, Haridwar
6 Valley of Flowers NP 1982 87.50 Chamoli
1 Askot Musk Deer WLS 1986 599.93 Pithoragarh
2 Binsar WLS 1988 45.59 Almora
3 Govind Pashu Vihar WLS 1955 485.89 Uttarkashi
4 Kedarnath WLS 1972 975.20 Chamoli, Rudraprayag
5 Mussoorie WLS 1993 10.82 Dehradun
6 Sonanadi WLS 1987 301.18 Pauri Garhwal
1 Rajaji Tiger Reserve
2 Naina Devi Himalayan Bird
Conservation Reserve
1 Asan Wetland Conservation Reserve 2005 4.44 Dehradun
2 Jhilmil Jheel Conservation Reserve. 2005 37.84 Haridwar
Source: http://wiienvis.nic.in/Database/Uttarakhand_7841.aspx; http://nbaindia.in/uploaded/state-
wise/uk/1.list_Protectedareas_uk.pdf .
Note: NP = National Park; WLS = Wildlife Sanctuary.
117
Annex 6: Boundaries of the Ganga Basin According to the GRBMP
As is seen from the figure below, all of the planned program area will be a part of the GRBMP
and, therefore, the NRGBM Bill, 2012.
Source: Consortium of seven IITs. 2015. Ganga Basin Management Plan 2015.
118
Annex 7: ECoPs for identification and managmenet of water sources
1. ECOPs FOR IDENTIFICATION OF SOURCES OF WATER SUPPLY
OBJECTIVE: To lay down the criteria for selecting appropriate water sources for rural drinking water
supply.
(I) Application – SPRINGS
Detailed hydro-geological studies of 279 sites are given (in table 6.10 of EA study report). However,
further site-specific geo-hydrological assessment in light of the following measures will provide a better
insight for individual schemes.
Measures Suggested –
There should be enough discharge especially in summers to meet the community’s needs
(table 6.4 of EA study report).
The discharge rate of the source during the dry season should be considered as the average source
discharge rate under the sub-project. In case of two years of observation, the minimum of the two
discharge should be considered for working out safe yield of the source. Safety factors (due to
processing, storage, transferring loses) be added on.
Water storage tank be made a little away (downhill-side) of the source.
The source should not be disturbed by biotic and abiotic pressures.
Source should not be within 100 m downhill side of a polluting point (Toilet and soak pit) as per
the Pey Jal Nigam guideline.
Source should be above a village and not immediately below a hillside village.
Source whose catchment is well – vegetated should be preferred.
Source in a forested area be preferred than in agricultural area.
The catchment having least anthropogenic interference will be preferred.
There should not be any other uses of the source proving drinking water under the scheme.
The quality of water should be within the safe limits of Bureau of Indian Standard.
(ii) Application – STREAMS
Measures Suggested –
Discharge measurements taken in the dry seasons (may-June) should only to be considered for
designing the project. Preferably, the minimum discharge rate to be considered should be 75 % of
the average of the two dry season’s minimum discharge recorded; as the minimum discharge
capacity for the sub-project for designing purposes. Besides, these the source should have enough
water left after tapping to maintain the stream ecology.
Proposed tapping point should be above the village path and not immediately below it. If animals
drink water (or bath) from the same stream then their drinking/ bathing point should be below the
proposed tapping point.
Water tapping point should not be below a polluting activity (drain discharge point etc).
In case a particular source is already used for multipurpose, the planning team must ensure that
the source has sufficient water to meet additional demand.
Water quality should be tested before installation of the scheme both for bacteriological and
chemical pollutants.
119
2. ECOPs ON PROTECTING SURFACE WATER SUPPLY SOURCE AND ENSURING
SUSTAINABILITY
Objective – To lay down criteria for sustaining water supply in a STREAM
Measures Suggested -
While tapping surface water especially in case of small rivulets, one of the key issue that needs to
be addressed is the percentage of source discharge required to be tapped. The proportion to be
tapped will depend on the other uses to which the water is being used now. If no other competing
use of the water exists, about 1/3 rd of the lean period supply must be left to sustain the
downstream ecology.
If possible a small well be dug or a 4 or 5 m. long 4” diameter perforated pipe be laid along the
stream at about 60 cm. below ground and then connect it to the pipe taking water to the village. In
this way cleaner water from the sand bed will be tapped.
Streams bank upto a few meters (say 10 m.) above tapping points be fenced to check any
anthropogenic disturbance.
If possible a few check dams be made in the stream above the collection point to increase the
water soaking and it will also improve the quality of water.
For wider streams, spurs will help instead of check-dams.
Catchment area treatment will be done.
3. ECOPs ON PROTECTING GROUND WATER SUPPLY SOURCES AND IS ENSURING
SUSTAINABILITY
Objective – To ensure sustainability of SPRINGS
The source has to be protected from physical damage and also be protected from any contamination due
to its use by anybody (human or animals). Following proposals are given to protect a spring sources.
Measures Suggested -
A brick/ concrete chamber will be made of about 2’ × 2’ × 2’ size around the spring mouth with an
iron gate made of close mesh and strong iron strips/ bars so that source is visible and well protected.
The area around the source required to be fenced. It can be of small size of about 2 m × 2 m, but
should be sturdy so that animals may not breach it easily. Fencing be done by 4 to 5 strand barbed
wire upto about 5’ ht., supported by wire net of 4” × 4“ to prevent animals to pass-in. Lower 3’ ht. be
fenced by close mesh wire net and it must be embedded strongly (well nailed in) at least 9” below
ground to prevent rodents etc. to enter by burrowing in.
For long term sustainability, catchment around the source be delineated and protect with the
following measures,
Free grazing of all animals must be restricted.
If possible, protect the area from animals grazing with social fencing.
Free animal grazing be restricted as animals dung, urine etc. can pollute water.
Open defecation in the micro-mini-catchment should be discouraged.
Vegetate the area with broad-leaved trees, bushes and grasses.
Controlled grass cutting (close and open range) on contour strips should be adopted.
If area has private fields and the land-use can not be altered then encourage only long rotation
crops with organic faming (preferable with horticulture species).
The catchment should be kept under permanent vegetative cover
All activities in the catchment be conducted on contours.
Water barriers be made in the catchment in form of various types of check dams, gully plugs,
contour hedges etc.
120
On wider streams, spurs will help.
Water recharge will improve by digging narrow, shallow staggered (well protected by grass)
trenches. If needed the trench can be filled up by stones, etc. and grass planted down hillside of
these trenches.
No land be left fallow in the catchment.
Un-necessary disturbance (cattle movement etc.) the catchment be checked.
Storm water can be led to abandoned wells, troughs etc. for subsoil water recharge.
Old ponds, channels etc. can be cleaned and desilted to recharge the traditional sources.
121
Annex 8: Water Quality Monitoring, ECoP and Monitoring Checklist
ECOPs ON WATER QUALITY MONITORING
Objective – The objective is to provide user-friendly guidelines for water quality surveillance under the
project.
Measures Suggested -
Water should be tested before finalizing a source to tap for drinking water in line of the norms
stated in Sec. 6.3.1 of EA study report.
The critical pollutants load of the area must be identified prior to the installation of the schemes.
In case, water quality exceeding any permissible limit, villager must be explained regarding the
mitigation measures
Water quality surveillance must be undertaken periodically in line of mitigation measures
proposed in this EMF, particularly for coliform, parasites and chlorine residues. In case of any
epidemic regular water sample testing must be encouraged.
Any water sample send for water sample analysis must be acidified immediately during collection
and get the water sample analyzed/tested within 12 hours of collection.
Regular chlorination of the main storage tank is recommended and this should be undertaken in
coordination with the Health Department. This institutional arrangement for such chlorination
already exists in the state.
Open defecation in catchment area should be prevented.
Toilets, garbage pits etc. within 30 m. above water source should be discouraged.
Enclosed table A to G can help in collecting the data for water quality from different types of
sources.
In case of spring sources chlorine dose could be 0.2 ppm while in case of Gadhera source it
should be 0.5 ppm.
122
Annex 9: Existing Monitoring System under previous Program
This format is a part of a larger format presently being used to monitor schemes, and includes
financial and other monitoring actions. The sections below are only those relevant for water
quality and sustainability issues.
SUSTAINABILITY EVALUATION EXERCISE FORMAT
Note: It is compulsory to give information on all fields. If Not Applicable, write N.A. Carefully read the
instructions before filling data.
Part A : Scheme Level General Information
1. Name of Implementing Agency : Swajal / UJN /UJS
2. Name of District : ________________________________________________________
3. Name of Division/DPMU: __________________________________________________
4. Name of Block : ________________________________________________________
5. Name of GP : ________________________________________________________
6. Name of Scheme : ________________________________________________________
7. Batch :_________________________________________________________
8. Name of Program : Sector Program (URWSSP)/Additional Financing Project
9. Total Population of the Covered Habitation/s as on visit date
10. DPR Population for base year
11. Design Population as per DPR
12. Total number of Households in Covered Habitation
13. Total Number of households benefited by Scheme:
14. Total Number of Stand Posts proposed as per DPR
123
15. Total Number of Stand Posts installed as per IPCR
16. Total Number of Private Connections proposed as per DPR
17. Total Number of Private Connections installed as per IPCR
18. Total Number of Hand Pumps installed as per DPR
19. Total Number of Hand Pumps installed as per IPCR
Name of Evaluators: ________________________ Date of Visit: _______________
Part B : Water Supply Information
[Details of Schemes]
Essential Condition: Source Discharge
The Source discharge of the scheme has to be evaluated on the following norms:
124
1. Water Supply Scheme Details:
* 1. Fully Functional (FF)- All stand posts/ hand pumps and private connections receiving adequate
water
2. Partially Functions (PF) - Some stand posts/ hand pumps and private connections not
receiving adequate water
3. Non Functions (NF)- No stand posts/ hand pumps and private connections receiving water
Please note that the functionality of Filtration unit is not to be considered here
2. Duration of Defective Schemes: PF/NF (Since become defective Months)
2.1 Extent of Partial Functionality (to be filled in for schemes other than Hand Pumps):
I
Discharge of the tapped source has increased or remained the same as per the safe yield
adopted in DPR (for gravity & pumping schemes)
or
All the hand pumps are giving adequate water
A
Ii
Discharge is between safe yield and design discharge as taken in DPR (for gravity &
pumping schemes)
or
Some of the hand pumps are not giving adequate water due to source drying up or
depletion of ground water
B
iii
Discharge of the tapped source has declined less than safe yield or dried up (for gravity &
pumping schemes)
or
All hand pumps not giving water due to source depletion of ground water
C
Note: If the source is evaluated, as ‘C’ then the scheme shall be designated, as LSV, even if the total
marks obtained are more than 49.
Name of Scheme Type of Scheme Date of
Commissioning
Scheme Status *
(Fully
Functional/Partial
ly Functional/Non
Functional)
Insurance in O&M
Phase
(Y/N)
125
Stand Posts Private Connections
Total Number Functional number Total Number Functional number
2.2 Extent of Partial Functionality (to be filled in for Hand Pumps Schemes):
Hand Pumps
Total Number Functional number
2.3 If Water Supply system is Partially Functional or Non Functional then specify the reason/ problem in
detail (to be filled only for schemes other than Hand Pump schemes)
Dry
ing u
p o
f th
e
wat
er s
ourc
e
Dep
leti
on i
n
wat
er s
ourc
e
Dam
age
to i
nta
ke
work
s
Dam
age
to f
ilte
r
work
s
Dam
age
to
supply
mai
n
Dam
age
to C
WR
Dam
age
to
dis
trib
uti
on
mai
n
Lea
kag
e in
supply
mai
n
Lea
kag
e in
Dis
trib
uti
on
mai
n
Fau
lty o
per
atio
n
of
val
ves
Any o
ther
(Ple
ase
spec
ify
)
3. Status of Filtration Units
Type of Filtration
Unit (SSF/RF)
Whether Covered or Not
(in case of SSF)
Functional Non-
Functional
Reason of Non
Functionality
4. Major reason/s for non-working of Hand pumps: (specify numbers of HPs in boxes against the reasons)
Sl. No. Cause of Problem Scheme 1
1 Failure of bore
2 Unavailability of spare parts
3 Unavailability of toolkits
4 Unavailability of trained mechanic
5 Any other reason (Please specify in detail)
5. Is regular chlorination being done? (Not Applicable for HP Scheme) Yes/ No
5 a) If yes, frequency of chlorination
126
Daily Alternate Days Weekly Fortnightly Monthly
5 b) If no, then what is the reason for non- chlorination: (tick the right option)
Sl. No. Reasons Please Tick
1 Chlorinator not yet installed
2 Defective Chlorinator
3 Non Availability of bleaching powder
4 VMW/SMW not employed
5 Lack of skill and knowledge about the activity
6 Hand pump/RWHT Scheme
7 Any other reasons (Please specify in detail)
6. Whether Chloroscope/Field Test Kit TK is available with the UWSSC? Yes No
6 a) Is residual chlorine testing being done? Yes/ No ___________________
6 b) If yes, frequency of residual chlorine testing:
Daily Alternate Days Weekly Fortnightly Monthly
6c) If no, then what is the reason for non Residual chlorine testing: (tick the right option)
Sl.
No.
Reasons Please Tick
1 Chloroscope not available
2 Defective Chloroscope
127
3 Non Availability of Testing Reagent
4 VMW not employed
5 Lack of skill and knowledge about the activity
6 d). H2S strip testing in case of Hand Pump Schemes
Regularly Irregularly Not Being Done
7. Are spare parts for maintenance easily available: Yes No
8. Are tools for O&M available with the VWSC: Yes No
9. Is VMW Employed: Yes No
10. If yes, Emoluments are being regularly paid to the VMW: Yes No N.A.
(Tick N.A. only if VMW not employed)
128
Part E : CACMP
S.No Details Units Constructed/Planted In Use/Alive
1 Check Dam Number
2 Contour Trench Running Meter
3 Coolie Walling Running Meter
4 Dug Pond/ Chal/ Khal Number
5 Percolation Pond Number
7 Compost Pits Number
8 Garbage Pits Number
9 Soak Pits Number
10 Recharge Pit Number
11 RWHT Number
12 Plants Number
13 Grass Patch Number
13 Does anybody regularly look after
the plants?
Yes /No
14 Has water logging near stand posts
been observed
Yes /No
15. Source Discharge measurement : Done/ Not Done
15. Perceived Benefits of CACMP (not more than 10 words)
i. Effect on Source Discharge
ii. Effect on Soil Erosion Control
iii. Effect on Vegetation Cover
iv. Effect on Soil Moisture
v. Effect on Fodder Availability
vi. Effect on Storm runoff
vii. Effect on Vulnerability of water supply scheme
P
Part -I: Revised Sustainability Evaluation Exercise Index
Sl. No Parameters
Maximum
Score
1. Sustainability of Hardware Assets
129
A Status of water supply structures 25
I Scheme fully functional 25
ii Scheme partial functional-functionality between 80% to 99% 20
iii Scheme partial functional-functionality between 60% to 79% 15
iv Scheme partial functional-functionality between 40% to 59% 10
v Scheme partial functional-functionality less than 40% 5
vi Scheme non functional 0
2 Operation and Maintenance
A Water Quality
(a) Chlorination status
i Regular chlorination and residual chlorine testing /H2S strip testing (HP) 5
ii
Regular chlorination but irregular or no residual chlorine testing /H2S strip
testing (HP) 3
iii Irregular chlorination and no residual chlorine testing /H2S strip testing (HP) 2
iv No chlorination/H2S strip testing (HP) 0
(b) Filtration Status
i All filtration Units functional 5
ii Some filtration Units functional 3
iii All filtration Units non-functional 0
A Highly Sustainable Village (HSV) 75-100
B Moderately Sustainable Village (MSV) 50-74
C Least Sustainable Village (LSV) sustainable to some extent 0-49
Total Marks Obtained SEE Category:
Signature of the Evaluator:
Comments of the Observer & Signature _______________________________________
130
Part J: Challenges & Intervention
(Based on Part-I)
S. No. Issues Intervention
1. Source Discharge
i.
ii.
iii.
iv.
2. Status of water supply Structures
i.
ii.
iii.
iv.
3. Chlorination status
i.
ii.
iii.
iv.
4. Filtration Status
i.
ii.
iii.
iv.
Signatures of Evaluators____________________
Date _____________________________________
131
Annex 10: ECoP to redue disturbance to wildlife during program activities
While it is expected that there is unlikely to be any work in a PA, however, as there are eco-
sensitive zones and some wildlife movement expected in the program area, wildlife in the area
may be disturbed by program activities. The guidance below is to help reduce any disturbance to
the extent possible.
a. In areas where there are animal corridors pipelines should be laid below the ground. Also,
it is suggested that there is no other infrastructure built above the ground in animal
corridors
b. In areas of elephant movement and corridors, water pipelines should be laid a few meters
below the ground, to minimise possibility of digging and breakage by the elephants
c. To the extent possible, an area frequented by animals should be avoided while
transporting material. However, if not possible, all activities should be done at periods
which cause least disturbance, such as during day hours.
d. In case there are areas where seasonal migration or high activity period of animals exist,
these areas should be identified, and any construction activity should be avoided during
this period.
e. Minimum clearance of vegetation during pipeline laying, and where replantation needs to
be taken up, ensure local and native species are used.
f. The design should identify appropriate time for working in the area – so as not to disturb
breeding and other important period in the area
g. Required drainage and erosion management actions that may be needed according to the
site must be identified and incorporated in the project design plan
h. Any machinery etc to be used should be identified to create minimum disturbance, and if
required noise buffers be put in place to ensure this
i. All noise levels should follow that applicable for the area, however if there are no
specific noise levels applicable, as might be in uninhabited areas, those for silence or
residential areas should be followed, given that animals are likely to be disturbed by
noise.
j. Any plan and schedules identified for the post construction management of the water
supply infrastructure must be designed in a way to avoid any high wildlife activity period,
such as during migratory season.
k. The construction contractor’s contract must include all clauses to ensure that identified
mitigation and management measures for natural habitat are included, understood by
him/her and the company has trained personnel to manage the activity as required and
identified
l. Precautions and first aid for snake bites such as a pressure bandage and anti-venom must
be available in case required
m. All digging laying pipes and filling work must be completed simultaneously so that there
is no risk of animals falling into the dugout areas and being injured or killed.
n. Areas where trenches and other digging activities take place should be cordoned off to
minimise animals falling, being injured or trapped due to construction activities.
o. Avoid O&M activities during high wildlife activity and movement times, such as
migration, breeding etc in the area
132
Annex 11: Urban Sprawl in Uttarakhand
Below are the images from the Bhuvan India Geo-platform of Indian Space Research Organisation (ISRO) showing the urban sprawl
of three urban areas. This is based on the census data between 1991 and 2014. The souces of all three figures are provided at the end
of this annex.
Haldwani Kathgodam Urban Growth
133
Haridwar Urban Growth
134
Dehradun Urban Growth
Source: http://bhuvan.nrsc.gov.in/urban/sprawl/urbangrowth.php# accessed July 5, 2016, 2:30 p.m.
135
Annexure 12: World bank Guidelines for Land donation
The Program will make all efforts to minimize if not avoid land acquisition. Under any circumstances, the titleholder/ encroacher will
not be subjected to any pressure, directly or indirectly, to part with the land. These actions are expected to minimize adverse impacts
on the local population and help in project benefits reaching of the all sections community. If required in remote possibility, the GPs
will procure land through direct purchase.
As voluntary donation is one of the options for land procurement, there is an opportunity for overuse/ misuse of this provision. Hence
the process of voluntary donation of land will be meticulously documented at all level to avoid confusions, misunderstandings,
litigations, etc. at a later stage. Complete documentation along with a copy of the final document will be sent to District Office for
records and for inspection at a later date. In order to make this process transparent, the following rules are prescribed:
1. The Titleholder should not belong to the vulnerable sections/ BPL category. The vulnerability shall be assessed by the project
and generally The following categories shall be vulnerable groups:
BPL households (with a valid proof), as per the State poverty line for rural areas;
BPL households without a proof of the same and belonging to the social categories, viz., (i) Women headed households with
women as sole earner (ii) Scheduled Caste/Scheduled Tribe and (iii) Handicapped person
2. The project provides for targeted support/ assistance to the vulnerable groups.
3. The voluntary donation should not be more than 10 percent of the area of that particular holding of the Titleholder in that
category of land (dry, wet or commercial/ residential). This should not require any physical relocation of the Titleholder.
4. The project technical authorities should ensure that the land is appropriate for sub-project purposes and that the sub-project
will not invite any adverse social, health, environmental, safety, etc. related impacts by procuring this land. The project
technical team should identify alternative locations in order to comply with these guidelines.
5. The land in question must be free of encumbrances.
6. Verification of the voluntary nature of land donations must be obtained from each of the persons donating land. This should be
in the form of notarized witnessed statements.
7. The land title must be vested in the GP and appropriate guarantees of public access to services must be given by the private
titleholder.